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41396 Publications

Positronium formation in nanostructured metals

Čížek, J.; Melikhova, O.; Hruška, P.; Vlček, M.; Anwand, W.; Liedke, M. O.; Novotný, M.; Bulíř, J.; Cheng, Y.

Nanostructured metals containing nano- and micro-cavities can be prepared by various methods. Morphology of cavities can be controlled by varying the parameters of preparation. This enables fabrication of nanostructured metals with properties tailored for particular applications, e.g. nanostructured metals containing fractal-like cavities with a wide size distribution are used as omnidirectional absorbers of light from the visible into the infrared spectral region. Positronium (Ps) is a non-destructive probe of nanoscopic cavities capable of precise determination of their size distribution. In conventional metals Ps does not form since any bound state of positron and electron is quickly destroyed by the screening of conduction electrons. However, a thermalized positron escaping from a metal through inner surface into a cavity may form Ps by picking an electron on the surface. This process was examined in the present work on nanostructured metals prepared three various methods: (i) thin films of black metals (Au and Al) evaporated in N2 atmosphere; (ii) nano-porous bulk Pd prepared by electrochemical etching of PdCo alloy; (iii) nanostructured Gd prepared by selective evaporation of Mg from MgGd alloy. Our investigations confirmed that Ps was formed in nanostructured metals. The the size distribution of nano-pores in the samples has been determined. The mechanism of Ps formation in these samples is discussed in the paper.

Keywords: Positronium; Nanostructured metals; pores; black Au; Al; Pd; Gd

Related publications

  • Lecture (Conference)
    12th International Workshop on Positron and Positronium Chemistry, 28.08.-01.09.2017, Lublin, Poland

Permalink: https://www.hzdr.de/publications/Publ-26646
Publ.-Id: 26646


Nanomembranes Modified by Highly Charged Ions

Facsko, S.; Wilhelm, R. A.; Gruber, E.; Heller, R.; Gölzhäuser, A.; Beyer, A.; Turchanin, A.; Aumayr, F.

Smart membranes play a key role in different sensor applications, e.g. for drug and explosive detection. By tailoring the structure and properties of these membranes physical-chemical functionality can be added to the sensor. One way of modifying membranes is by particle irradiation with electrons or ions. Specifically, highly charged ions (HCI) carry a large amount of potential energy (the stored ionization energy) which is released when interacting with the membrane creating nanopores by a single HCI impact. In order to be able to control the ion induced modification, e.g. defining the pore size, the energy deposition in the membranes has to be determined.
For the interaction of HCI with thin membranes this is particularly interesting because the HCIs are still in a pre-equilibrium interaction regime for thicknesses below a few nm. Within 1 nm thick carbon nano membranes (CNMs) for instance, holes are produced by the passage of highly charged Xeq+ ions only above a threshold in the potential energy of the HCI which depends on the kinetic energy [1]. In order to study the stopping force of the HCIs in the membrane we examined the charge state and the energy loss of the Xeq+ ions after their passage through the CNM. Surprisingly, two distinct exit charge distributions were observed [2]. While some of the ions pass the membrane with almost no charge loss, other ions lose most of their charge. Apparently, the observed charge distribution reflects two different impact parameter regimes. The different impact parameter regimes are also connected to different energy losses: ions with large impact parameters are not stopped, whereas ions in close collisions exhibit high stopping force which is strongly dependent on the incident charge state.
[1] R.A. Wilhelm, E. Gruber, R. Ritter, R. Heller, A. Beyer, A. Turchanin, N. Klingner, R. Hübner, M. Stöger-Pollach, H. Vieker, G. Hlawacek, A. Gölzhäuser, S. Facsko, and F. Aumayr, 2D Mater. 2, 1 (2015).
[2] R.A. Wilhelm, E. Gruber, R. Ritter, R. Heller, S. Facsko, F. Aumayr, Phys. Rev. Lett. 112, 153201 (2014).

Keywords: highly charged ions; nanomembranes

Related publications

  • Invited lecture (Conferences)
    Towards Reality in Nanoscale Materials IX, 13.-16.02.2017, Levi, Finland

Permalink: https://www.hzdr.de/publications/Publ-26645
Publ.-Id: 26645


Porosimetry of ultra-low K materials and transformed porous glass-thin layers by Monenergetic Positron Source at ELBE facility

Attallah, A. G.; Koehler, N.; Dornberg, G.; Butterling, M.; Liedke, M. O.; Wagner, A.; Schulz, S. E.; Badawi, E.; Enke, D.; Krause-Rehberg, R.

The pore size of spin-on coated ultra-low K (ULK) materials cured at 4500C for different times was studied by the pulsed slow positron beam (MePS) at ELBE/HZDR. To investigate the pore formation in cured porous spin-on dielectrics, the pore size as a function of positron implantation energy was obtained for samples with different curing times. Such a study is performed to understand the dielectric damage behaviour of ULK dielectrics for the integration in Back-End of Line (BEOL). MePS results revealed that the films contain open and closed pores with ~ 3 nm in diameter which was confirmed by capping the samples. The highest pore concentration is located beneath the surface in the 0.2 - 0.5 m range (We plan to carry out ellipsometric porosimetry and FTIR during this summer). Pseudomorphic transformation of porous glass-thin layers, with pores of 40 - 50 nm diameter and a relatively small surface area, to MCM-41 with ~4 nm pores, with a higher surface area, was studied by MePS. The small pore size of MCM-41 was successfully detected with an intensity growth with transformation degree but the large pores were not detected at all. To understand the disability of detecting the large pores by positron annihilation lifetime, we plan to perform SEM measurements in the same depth as that of the implanted positrons (0.005-2.4 m).
Additionally, the increase in the intensity of positronium lifetime, which correlates the small pores, as a function of positron implantation energy could reflect inner pore isolation or poor interconnectivity.

Keywords: ultra-low K materials; Porosimetry; MePS; ELBE; Positronium

Related publications

  • Lecture (Conference)
    12th International Workshop on Positron and Positronium Chemistry, 28.08.-01.09.2017, Lublin, Poland

Permalink: https://www.hzdr.de/publications/Publ-26644
Publ.-Id: 26644


In-situ investigations of the curing process in ultra low-k materials

Liedke, M. O.; Koehler, N.; Butterling, M.; Attallah, A. G.; Krause-Rehberg, R.; Hirschmann, E.; Schulz, S. E.; Wagner, A.

Porous spin-on glasses belong to ultra low-k (ULK) dielectrics and are promising candidates for integration in the semiconductor device fabrication technology. Their microstructure consists usually of interconnected pore networks distributed across the film rather than separated voids. The pore size and distribution are controllable to a large extent, however, the pore formation process itself is still not well understood. A dielectric damage during integration and material degradation of films with large porosity are still problematic issues. The first results on in-situ investigations of the pore formation during a curing process – a porogen removal by vacuum annealing will be presented. The main motivation is to obtain the insight into early stages of the pore formation and up to its full development. The in-situ annealing and Doppler Broadening – Positron Annihilation Spectroscopy (DB-PAS) measurements have been done on our Apparatus for In-situ Defect Analysis (AIDA) system [1], which is the end-station of the slow positrons beamline at HZDR. The comparison between preliminary ex-situ studies by means of DB-PAS [see Fig. 1], Positron Annihilation Lifetime Spectroscopy (PALS), and Fourier Transform Infrared Spectroscopy (FTIS) will be given.
In Fig. 1(a) it is shown that o-Ps emission increases with t, thus can be a probe of films porosity as long as they are capped. The curing time of 5-30min. is sufficient to fully develop the pore network [Fig. 1(b)]. Porosity development and distribution will be discussed for annealing temperatures in the 100-400°C range and varied annealing time.
[1] M.O. Liedke et al., Journal of Applied Physics 117, 163908 (2015).

Keywords: low-k materials; curing process; Porous spin-on glasses; PAS; AIDA; Positron Annihilation Spectroscopy

Related publications

  • Lecture (Conference)
    12th International Workshop on Positron and Positronium Chemistry, 28.08.-01.09.2017, Lublin, Poland

Permalink: https://www.hzdr.de/publications/Publ-26643
Publ.-Id: 26643


Ion Beam-Enabled CMOS-Compatible Manufacturing of SETs Operating at Room Temperature

Facsko, S.; Heinig, K. H.; Stegemann, K. H.; Pruefer, T.; Xu, X.; Hlawacek, G.; Huebner, R.; Wolf, D.; Bischoff, L.; Moeller, W.; von Borany, J.

Electronics has been dominated by silicon since half a century. Si will dominate electronics another decade, however its functionality might change from classical field-controlled currents through channels (the Field Effect Transistor FET) to quantum mechanical effects like field-controlled hopping of single electrons from a source to a drain via a quantum dot (the Single Electron Transistor SET). Due to single electron hopping, the SET is the champion of low-power consumption. This is very attractive for the expanding Internet of Things (IoT): more and more devices need batteries and plugs. Therefore, together with improved batteries, advanced computation and communication must be delivered at extremely low-power consumption. At very low temperatures, the perfect functionality of SETs has been proven for tiny metal dots [1] and larger Si islands [2]. However, large-scale use of SETs requires Room Temperature (RT) operation, which can be achieved with tiny Si dots (<4 nm) in SiO2, exactly located between source and drain with distances of ~1…2 nm allowing quantum mechanical tunneling. Manufacturability of such nanostructures is the roadblock for large-scale use of SETs. Lithography cannot deliver the feature sizes of 1…3 nm required for RT operation. Therefore, there are currently intense studies to fulfill these requirements by self-organization processes. Convincing proof of concepts have been reported [see, e.g., 3] on room temperature operation of silicon based SETs. However, the self-organization processes developed so far are not reliable enough for large-scale integration.
The ion beam technique is a well-established technology in microelectronics used for doping and amorphization of semiconductors and even for ion beam synthesis of buried layers. The parameters of ion beam processing like ion flux, fluence and energy as well as the temperature and time of the subsequent thermal treatment are very well controllable. Therefore we searched for a self-organization process based on ion irradiation which overcomes the bottleneck of manufacturability of SETs working at room temperature.
Thus, in the framework of an international project funded by the European Commission [4], we develop an ion-assisted, CMOS-compatible process [4] which will provide both (i) self-assembly of a single Si dot and (ii) its self-alignment with source and drain.
Based on our knowledge of ion implantation [5,6] and irradiation [7] induced phase separation and Ostwald ripening processes as well as ion-assisted fabrication of non-volatile nanocluster memories [8], we concluded by computer simulations that phase separation of tiny, metastable SiOx volumes (<103 nm3) will transiently lead to a single Si nanodot in SiO2 (see Fig.2).
The tiny, metastable SiOx volume is formed by ion beam mixing of a bulk Si/SiO2/a-Si layer stack. In order to get the very small SiOx volume necessary for single dot formation, two approaches are used: (i) point-like Ne+ irradiation for fundamental studies, and (ii) broad beam Si+ irradiation of nanopillars for the device fabrication (see Fig. 3).
For both approaches, the predictive computer simulations use for the dynamical 3D ion beam mixing the recently developed program TRI3DYN [9]. TRI3DYN provides the initial conditions for phase separation and coarsening processes simulated (see, e.g. Fig. 2) with the 3D kinetic Monte Carlo program 3DkMC [6].
First results of our studies with the Helium Ion Microscope are shown in Figs. 4 and 5. The ion beam mixing of the SiO2 layer as imaged by EFTEM agrees nicely with that predicted by TRI3DYN simulations. Using this mixing profile as input for 3DkMC simulations, a single Si nanocluster is formed (Fig. 4). Although it appears to be extremely difficult to image a single Si nanodot of 2…3 nm diameter embedded in SiO2 in a ~50 nm thick TEM lamella, Fig 5 proves that after annealing such a single cluster can be formed. The next activities will be focused on the single Si nanodot fabrication in Si nanopillars and the optimization of this process for RT-SET fabrication.

This work has been funded by the European Union’s Horizon 2020 research and innovation program under grant agreement No 688072.

1. K. Maeda et al., ACS Nano (2012) 2798.
2. S. Ihara et al., Appl. Phys. Lett. 107 (2015) 13102. SET in SOI
3. V. Deshpande et al., Proc. of the IEDM12-Conf. (2012) 195.
4. Research Project IONS4SET funded by the European Commission
5. M. Strobel et al., NIM B147 (1999) 343.
6. M. Strobel, K.-H. Heinig, W. Möller, Phys. Rev. B64 (2001) 245422.
7. K.H. Heinig, T. Müller, B. Schmidt, M. Strobel, W. Möller, Appl. Phys. A77 (2003) 17.
8. T. Mueller et al., Appl .Phys. Lett. 81 (2002) 3049; ibid 85 (2004) 2373.
9. W. Möller, NIM B322 (2014) 23.

Keywords: ion irradiation; self-assembly; Si nanocrystals; single electron transistor

Related publications

  • Invited lecture (Conferences)
    Ion-Surface Interactions 2017, 21.-25.08.2017, Moskow, Russia

Permalink: https://www.hzdr.de/publications/Publ-26642
Publ.-Id: 26642


Hydrogen-induced defects in Ti and their thermal stability

Melikhova, O.; Čížek, J.; Hruška, P.; Lukac, F.; Knapp, J.; Havela, L.; Mašková, S.; Anwand, W.; Liedke, M. O.

Titanium readily absorbs hydrogen and undergoes phase transition into the hydride phase (TiH2). In the hydride phase Ti is able to absorb the hydrogen concentration as high as 1.4 wt.%. These properties make Ti and Ti-based alloys attractive for hydrogen storage applications. Hydrogen absorption in titanium matrix may introduce open volume defects since the volume of TiH2 phase exceeds that of titanium matrix. Absorbed hydrogen may segregate at these defects forming defect-hydrogen complexes.
In the present work positron annihilation spectroscopy was employed for characterization of hydrogen-induced defects in titanium. Defects created by hydrogen loading from the gas phase were compared with those introduced by electrochemical hydrogen charging. In general hydrogen loading introduces a high density of dislocations and vacancy clusters created by agglomeration of hydrogen-induced vacancies. The mean size of vacancy clusters depends on the hydrogen absorption temperature.
Thermal stability of hydrogen absorbed in titanium and recovery of hydrogen-induced defects were studied by positron lifetime spectroscopy combined with in-situ X-ray diffraction and thermal desorption spectroscopy. Fig. 1 shows the temperature dependence of positron lifetimes and relative intensities of individual components for hydrogen gas loaded titanium. The decomposition of TiH2 phase is accompanied with introduction of additional vacancies agglomerating into vacancy clusters. Further annealing of the sample above 500 °C leads to recovery of dislocations.

Keywords: Ti; hydrogen; hydride phase; open volume defects; positron annihilation spectroscopy; positron lifetime

Related publications

  • Poster
    The International Workshop on Positron Studies and Defects 2017 (PSD-17), 03.-08.09.2017, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26641
Publ.-Id: 26641


Defects in high entropy alloy HfNbTaTiZr prepared by spark plasma sintering

Lukac, F.; Dudr, M.; Cinert, J.; Vilemova, M.; Cizek, J.; Harcuba, P.; Vlasak, T.; Zyka, J.; Malek, J.; Liedke, M. O.

High entropy alloys exhibit various combinations of interesting physical properties due to the formation of solid solution stabilized by high configurational entropy. High entropy alloy HfNbTaTiZr exhibits single phase solid solution with BCC structure when prepared by arc melting [1]. Grain refinement achieved in cold rolled samples after recrystallization remarkably enhanced ductility of this alloy [2]. Mechanical alloying by milling and subsequent sintering is a frequent production way of preparing fine grained alloys from chemical elements with high melting temperature. In addition, spark plasma sintering (SPS) method with applied pressure serves as a unique tool of powder metallurgy thanks to fast heating rates and low time of exposition to elevated temperatures. Therefore, the deformation energy introduced during mechanical alloying may be effectively consumed during short sintering process and presents the additional parameter for grain refinement. The present work presents characterization of HfNbTaTiZr alloy prepared by SPS.
Microstructure of samples prepared by SPS was compared with as cast ingots. The samples were characterized by X-ray diffraction and scanning electron microscopy. Positron annihilation spectroscopy was employed for characterization of defects introduced by SPS and their thermal stability.
[1] O.N. Senkov, J.M. Scott, S.V. Senkova. D.B. Miracle, C.F. Woodward: Journal of Alloys and Compounds 509, 6043-6048 (2011).
[2] O.N. Senkov, S.L. Semiatin; Journal of Alloys and Compounds 649, 1110-1123 (2015).

Keywords: High entropy alloys; HfNbTaTiZr; spark plasma sintering; Positron annihilation spectroscopy; X-ray diffraction; scanning electron microscopy

Related publications

  • Poster
    The International Workshop on Positron Studies and Defects 2017 (PSD-17), 03.-08.09.2017, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26640
Publ.-Id: 26640


Slow positron beam spectroscopy study of PMMA nanocomposite films with ion-synthesized silver nanoparticles

Kavetskyy, T. S.; Iida, K.; Nagashima, Y.; Elsayed, M.; Liedke, M. O.; Srinivasan, N.; Wagner, A.; Krause-Rehberg, R.; Šauša, O.; Telbiz, G.; Stepanov, A. L.

Understanding how the size, shape, and the aggregation state of the silver nanoparticles (NPs) are changed after integration into a target matrix is critical to enhance their performance, including molecular diagnostics, photonic and biomedical devices, which take advantage of the novel optical properties of these nanomaterials. In particular, the nanocomposites containing noble metal NPs dispersed in the polymer matrix by high-dose (> 1016 ions/cm2) implantation at low-energy ions (< 100 keV) can be used for the construction of plasmonic waveguides [1] and diffraction gratings [2]. Typically, form and size of Ag NPs in optically transparent matrices are connected with an appearance in visible absorption spectra of composite a surface plasmon resonance band. However, synthesis of Ag NPs by ion implantation in transparent polymer matrix such as polymethylmethacrylate (PMMA) has been found [1] to be quite difficult and unusual.
This problem can be solved with a powerful technique for the characterization of thin films – positron annihilation spectroscopy (PAS) using a variable-energy positron beam (VEPAS), – allowing depth-profiles from tens of nanometers up to several micrometers. This technique has been emerged as a key experimental tool for the understanding high-dose 40 keV boron-ion-implanted polymethylmethacrylate (B:PMMA) [3] with carbon nanostructures and Ag NPs loaded polymer brushes [4]. Also, the first attempt to find difference between the effects of carbonization and formation of Ag NPs in high-dose B:PMMA and Ag:PMMA nanocomposites has been done in the work [5] by using the Doppler broadening slow positron beam spectroscopy (DB-SPBS).
In the present work, the DB-SPBS technique was applied to characterize further the 30 keV Ag:PMMA nanocomposites fabricated by low-energy high-dose Ag-ion implantation. The results of depth profile of the S(Ep) parameter in the near-surface region of irradiated polymer were used to clarify indirectly a formation of Ag NPs in PMMA in dependence on ion dose. By comparative analysis with the S(Ep) parameter trend in polymer brushes with loaded Ag NPs [4], it is found that the density or mass of Ag NPs (‘Ag filling’) in Ag:PMMA increases as ion dose grows. The results obtained are discussed in terms of the positronium formation fraction in the irradiated part of polymer matrix and the model of carbon-shell Ag-core nanoparticles.
[1] A.L. Stepanov, Tech. Phys. 49, 143 (2004).
[2] M.F. Galyautdinov et al., Tech. Phys. Lett. 42, 182 (2016).
[3] T. Kavetskyy et al., J. Phys. Chem. B 118, 4194 (2014).
[4] G. Panzarasa et al., Nanotechnology 27, 02LT03 (2016).
[5] T. Kavetskyy et al., J. Phys.: Conf. Ser. 791, 012028 (2017).

Keywords: positron annihilation spectroscopy (PAS); variable-energy positron beam (VEPAS); PMMA nanocomposite films; Ag

Related publications

  • Lecture (Conference)
    The International Workshop on Positron Studies and Defects 2017 (PSD-17), 03.-08.09.2017, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26639
Publ.-Id: 26639


Defects and porosity in zirconia-based nanomaterials: a study by slow-positron beam technique

Prochazka, I.; Cizek, J.; Melikhova, O.; Lukac, F.; Hruska, P.; Anwand, W.; Liedke, M. O.; Brauer, G.; Konstantinova, T. E.; Danilenko, I. A.

A variety of advantageous thermal, electrical and mechanical properties of zirconium di-oxide (ZrO2, zirconia) make zirconia-based materials widely used in many industrial areas, in particular, in ceramic industry and other high-temperature applications. Doping of the ZrO2 host lattice by proper metal cations is a prerequisite of stabilisation of the high- temperature cubic and tetragonal phases down to room temperature as well as improvement of other functional properties. The use of nanopowders as initial substances in manufacturing ZrO2-based nanoceramics by sintering leads to well-homogenised materials of a low porosity. Due to an appreciable volume fraction of grain boundaries (GBs), pores and nanometer-sized open-volume defects associated to GBs become significant in nanopowders. Obviously, positron as well as positronium (Ps) atom becomes efficient
probes of microstructure evolution during production of ZrO2-based functional nanomaterials by sintering.
In the present contribution, investigation of several zirconia-based nanopowders as well as ceramics, obtained by sintering these nanopowders, will be reported. Nanopowders under study were doped with metal cations of various valency (Mg2+, Y3+, Cr3+, Ce4+) and differed also in thermal treatment. Doppler broadening (DB) measurements using slow-positron beam were conducted in the positron energy E ranging from 0.03 eV to 35 keV and the ordinary S and W shape parameters as well as the relative 3γ fractions were evaluated as functions of E. In Figure, an example of measured S(E) curves is given illustrating the sintering induced disappearance of open volume defects and para-Ps formation as well as grain growth could be observed. The VEPFIT models were fitted to the measured S(E), W(E) curves. The DB experiments were supplemented with the conventional positron lifetime, X-ray diffraction (XRD) and mass-density (MD) measurements. Nature and depth distributions of open-volume defects will be discussed on the basis of the slowpositron beam results correlated with the data on positron lifetimes, XRD and MD.

Keywords: positron annihilation spectroscopy; zirconia; nanomaterials; nanopowders

Related publications

  • Lecture (Conference)
    The International Workshop on Positron Studies and Defects 2017 (PSD-17), 03.-08.09.2017, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26638
Publ.-Id: 26638


Slow positron annihilation studies of Pd-Mg multilayers

Hruška, P.; Čížek, J.; Bulíř, J.; Lukáč, F.; Anwand, W.; Liedke, M. O.; Fekete, L.; Melikhova, O.; Lančok, J.

Palladium is well known for its excellent hydrogen absorption kinetics. The gravimetric hydrogen absorption capacity of Pd is however only 0.93 wt. %. Magnesium exhibits a high hydrogen absorption capacity up to 7.6 wt. %, however the hydrogen absorption kinetics is slow. The aim of this work was to create thin Pd-Mg multilayered films combining positive hydrogen absorption properties of both elements. Pd-Mg multilayers were deposited by RF magnetron sputtering on fused silica substrates coated with 100 nm thick Pd wetting layer. The multilayers consist of alternating Pd and Mg layers (3, 12 and 60) of the same thickness. Three types of Pd-Mg multilayers were compared: (i) as deposited samples, (ii) hydrogen gas loaded samples at room temperature and H2 pressure of 4000 Pa for 2 h, (iii) samples annealed up to 450°C under Ar atmosphere. Defect structure of Pd-Mg multilayers was characterized using variable energy positron annihilation spectroscopy. Doppler broadening of the annihilation photopeak was analyzed using the S and W line-shape parameters and the measured S(E) curves were fitted using the VEPFIT code. The development of the structure during the annealing of the films was monitored by in-situ X-ray diffraction. Atomic force microscopy was employed for the study of the surface morphology. All films were characterized by nanocrystalline structure with a high density of grain boundaries with open-volume defects capable of positron trapping. The density of grain boundaries is determined by the mean grain size which increases with increasing thickness of a single phase layer. Hydrogen loading led to buckling of the film and introduced additional defects into the film. Annealing of the multilayers leads to diffusion of Mg atoms into the Pd layers and precipitates of Mg-Pd phase are formed.

Keywords: PAS; slow positron beam; positron annihilation spectroscopy; Pd; Mg; multilayers

Related publications

  • Lecture (Conference)
    The International Workshop on Positron Studies and Defects 2017 (PSD-17), 03.-08.09.2017, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26637
Publ.-Id: 26637


Magnetic phase transitions in ns-laser irradiated FeAl systems: the role of open volume defects

Liedke, M. O.; Bali, R.; Hübner, R.; Gradauskaite, E.; Ehrler, J.; Wang, M.; Potzger, K.; Zhou, S.; Wagner, A.

Fe60Al40 alloys exhibit disorder dependent magnetic phase transitions (MPT), e.g., a ferromagnetic disordered A2-phase turns into a paramagnetic ordered B2-phase [1]. The ordered B2-phase, formed due to annealing up to 500°C in vacuum can be reversed to the disordered A2-phase via ion-irradiation [2]. It has been shown that the physical origin of MPT is related to the so-called anti-site disorder (ASD), i.e., variations in the number of Fe-Fe nearest neighbors due to disordering of the system [3]. However, variations of the lattice parameter, secondary phases, and changes in the concentration and size of open volume defects may play an important role as well. Here, an excimer UV ns-laser has been utilized to induced defects and examine the role of ASD and defects onto magnetic properties of Fe60Al40. Samples of 40 nm thick Fe60Al40 films with different initial order levels were exposed to a range of laser fluences: (i) Ne+ irradiated fully-disordered (A2- Fe60Al40), and (ii) vacuum annealed ordered alloys (B2- Fe60Al40) and (iii) as-grown semi-disordered (A2/B2- Fe60Al40). It is seen that for laser pulses of fluences below 100 mJ·cm^-2 cause subtle changes to the magnetization depending on the Fe60Al40 initial state, whereas for fluences above 150 mJ·cm-2, strong increase in ferromagnetism is observed for all Fe60Al40 initial states. The laser irradiated samples were probed with the Positron Annihilation Spectroscopy (PAS) to analyze for the existence of vacancies and/or phase separation. Although the low fluence region shows nearly no variation in vacancy defect concentration, a slight increase in the number of Al atoms around defect sites is found. For the high fluence regime, it is seen that a large variation in vacancy defects occurs, followed by pronounced phase separation. Structural analysis of the phase separated films shows strong migration of Al atoms leaving behind Fe-enriched regions, consistent with the PAS spectra.
[1] M. O. Liedke et al., J. Appl. Phys. 117, 163908 (2015)
[2] J. Fassbender, et. al., Phys. Rev. B 77, 174430 (2008)
[3] R. Bali, et al., Nano Lett. 14, 435 (2014)

Keywords: positron; positron annihilation spectroscopy; MOKE; ns-laser; magnetic phase transition; order; disorder

Related publications

  • Invited lecture (Conferences)
    The International Workshop on Positron Studies and Defects 2017 (PSD-17), 03.-08.09.2017, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26636
Publ.-Id: 26636


Reversible Tuning of Ferromagnetism and Resistive Switching in ZnO/Cu Thin Films

Younas, M.; Xu, C.; Arshad, M.; Ho, L.; Zhou, S.; Azad, F.; Akhtar, M.; Su, S.; Azeem, W.; Ling, F.

Systematic magnetic, electronic, and electrical studies on the Cu0.04Zn0.96O/Ga0.01Zn0.99O cell structure grown on (001) sapphire by the pulsed laser deposition technique show that the Cu multivalent (CuM+) ions modulate magnetic and resistive states of the cells. The magnetic moment is found to be reduced by ∼30% during the high resistance state (HRS) to low resistance state (LRS) switching. X-ray photoelectron spectroscopy results reveals an increase of the Cu+/Cu2+ oxidation state ratio (which has been determined by the relative positions of the Fermi level and the Cu acceptor level) during the HRS to LRS transition. This decreases the effective spin-polarized Cu2+−Vö−Cu+ channels and thus the magnetic moment. A conduction mechanism involving the formation of conductive filaments from the coupling of the CuM+ ions and Vö has been suggested.

Permalink: https://www.hzdr.de/publications/Publ-26635
Publ.-Id: 26635


Symmetries and localization properties of defect modes in metamaterial magnonic superlattices

Gallardo, R. A.; Schneider, T.; Roldán-Molina, A.; Langer, M.; Núñez, A. S.; Lenz, K.; Lindner, J.; Landeros, P.

Symmetries and localization properties of defect modes of a one-dimensionsional bi-component magnonic superlattice are theoretically studied. The magnonic superlattice can be seen as a periodic array of nanostripes, where stripes with different width, termed as defect stripes, are periodically introduced. By controlling the geometry of the defect stripes, a transition from dispersive to practically

at spin-wave defect modes can be observed inside the magnonic band gaps. It is shown that the spin-wave profile of the defect modes can be either symmetric or asymmetric by depending on the geometry of the defect. Due to the localization peculiarities of the defect modes, a particular magnonic superlattice is proposed, wherein the excitation of either symmetric or antisymmetric at modes is enabled at the same time. Also, it is demonstrated that the relative frequency position of the asymmetric mode inside the band gap does not significantly change with the application of an external field, while the symmetric modes move to the edges of the frequency band gaps. The results are complemented by numerical simulations, where an excellent agreement is observed between both methods. The proposed theory allows exploring different ways to control the dynamic properties of the defect modes in metamaterial magnonic superlattices, which can be useful for applications on multifunctional microwave devices operating over a broad frequency range.

Keywords: ferromagnetic resonance; spin waves; magnetization dynamics; magnonic crystals; plane wave method; dispersion; superlattices; daemon-eshbach

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Permalink: https://www.hzdr.de/publications/Publ-26634
Publ.-Id: 26634


Towards Substitutionally-Inert Ru(II) Complexes as Photoactivatable Anticancer Agents

Joshi, T.; Pierroz, V.; Ferrari, S.; Spiccia, L.; Gasser, G.

The severe side effects encountered with platinum-based anticancer agents has driven the pursuit of new metal-based chemotherapeutics. The best examples of these are ruthenium compounds which have shown a promising potential to circumvent these side effects on account of their broad antiproliferative profile and novel mechanistic of action against cancer cells. Our work aims at the development of substitutionally inert Ru(II)-tris(diimine) complexes as new anticancer agents. Here we present the anticancer action and cytotoxicity mechanism of a Ru(dppz)2(CppH) cells [3]. The reported findings represent a major advancement towards achieving a site-directed spatially and temporally controlled anti-cancer activity from such metallo cytotoxics.

References
[1] V. Pierroz, T. Joshi, A. Leonidova, C. Mari, J. Schur, I. Ott, L. Spiccia, S. Ferrari, G. Gasser J. Am. Chem. Soc. 134 (2012) 20376−20387.
[2] T. Joshi, V. Pierroz, S. Ferrari, G. Gasser ChemMedChem 9 (2014) 1419–1427.
[3] T. Joshi, V. Pierroz, C. Mari, L. Gemperle, S. Ferrari, G. Gasser Angew. Chem. Int. Ed. 53 (2014) 2960–2963.

  • Invited lecture (Conferences)
    II International Caparica Congress on Translational Chemistry, 04.-07.12.2017, Caparica, Lisbon, Portugal

Permalink: https://www.hzdr.de/publications/Publ-26633
Publ.-Id: 26633


Neomycin B–cyclen conjugates and their Zn(II) complexes as RNA-binding agents

Joshi, T.; Kong, B.; Tor, Y.; Graham, B.; Spiccia, L.

Aminoglycosides are one of the most well-studied classes of naturally occurring antibacterial agents [1]. Their antibiotic activity derives from their selective binding to the bacterial ribosomal RNA A-site, which ultimately leads to disruption of protein synthesis. Unfortunately, despite exhibiting a promising antibacterial profile, the widespread use of aminoglycosides as antibiotics has been hampered by their adverse side effects and the emergence of bacterial resistance. Herein, we present the synthesis of a series of new neomycin B conjugates featuring a polyazamacrocycle, 1,4,7,10-tetraazacyclododecane (cyclen), appended to the D-ribose ring, together with an examination of their A-site binding properties, as well as those of the corresponding Zn(II) complexes (C1–C3 and Zn(II)-C1–Zn(II)-C3). Since the high affinity of aminoglycosides for RNA is associated with the formation of complementary electrostatic interactions between protonated amine groups on the aminoglycosides and the RNA, the tethered cyclen macrocycle, enhances affinity for the A-site RNA motif due to the introduction of additional ionisable amino groups [2,3]. Furthermore, in agreement with previous findings that Zn(II)-cyclen complexes form reasonably strong interactions with phosphate groups as well as the deprotonated imide groups of the nucleobases, uracil and thymine, complexation of Zn(II) by cyclen in the neomycin B conjugates serves to enhance the affinity further still by allowing the conjugates to form coordination bonds with the RNA target [2,3]. The conjugates are worthy of further investigation as potential new antibiotic agents.

References: [1] Y. Tor, ChemBioChem 2003, 4, 998. [2] B. Kong, T. Joshi, et al., J. Inorg. Biochem. 2016, 162, 334. [3] T. Joshi, et. al., Acc. Chem. Res. 2015, 48, 2366.

  • Invited lecture (Conferences)
    6th Asian Conference on Coordination Chemistry, 24.-28.07.2017, Melbourne, Australia

Permalink: https://www.hzdr.de/publications/Publ-26632
Publ.-Id: 26632


Spectroscopic Studies on Photoinduced Reactions of the Anticancer Prodrug, trans,trans,trans-[Pt(N3)2(OH)2(py)2]

Vernooij, R. R.; Joshi, T.; Horbury, M. D.; Graham, B.; Izgorodina, E. I.; Stavros, V. G.; Sadler, P. J.; Spiccia, L.; Wood, B. R.

The photodecomposition mechanism of trans,trans,trans-[Pt(N3)2(OH)2(py)2] (1, py = pyridine), an anticancer prodrug candidate, was probed using complementary Attenuated Total Reflection Fourier Transform Infrared (ATR-FTIR), transient electronic absorption and UV-Vis spectroscopy. Data fitting using Principal Component Analysis (PCA) and multi-curve resolution alternating least squares, suggests the formation of a trans-[Pt(N3)(py)2(OH/H2O)] intermediate and trans [Pt(py)2(OH/H2O)2] as the final product upon 420 nm irradiation of 1 in water. Rapid disappearance of the hydroxido ligand stretching vibration upon irradiation is correlated with a -10 cm-1 shift to the anti-symmetric azido vibration, suggesting a possible second intermediate. Experimental proof of subsequent dissociation of azido ligands from platinum is presented, where at least one hydroxyl radical is formed in the reduction of Pt(IV) to Pt(II). Additionally, the photoinduced reaction of 1 with the nucleotide 5’-guanosine monophosphate (5’-GMP) was comprehensively studied, and the identity of key photoproducts was assigned with the help of ATR FTIR spectroscopy, mass spectrometry and density functional theory calculations. The identification of marker bands for some of these photoproducts (e.g., trans-[Pt(N3)(py)2(5’-GMP)] and trans-[Pt(py)2(5’-GMP)2] will aid elucidation of the chemical and biological mechanism of anticancer action of 1. In general, these studies demonstrate the potential of vibrational spectroscopic techniques as promising tools for studying such metal complexes.

Keywords: vibrational spectroscopy; Attenuated Total Reflection (ATR); Pt(IV) prodrugs; mechanism of action; anticancer

Permalink: https://www.hzdr.de/publications/Publ-26631
Publ.-Id: 26631


A new data processing approach to study particle motion using ultrafast X-ray tomography scanner: case study of gravitational mass flow

Waktola, S.; Bieberle, A.; Barthel, F.; Bieberle, M.; Hampel, U.; Grudzień, K.; Babout, L.

In most industrial products, granular materials are often required to flow under gravity in various kinds of silo shapes and usually through an outlet in the bottom. There are several interrelated parameters which affect the flow, such as internal friction, bulk and packing density, hopper geometry, and material type. Due to the low spatial resolution of electrical capacitance tomography or scanning speed limitation of standard X-ray CT systems, it is extremely challenging to measure the flow velocity and possible centrifugal effects of granular materials flow effectively. However, the ultrafast electron beam X-ray CT scanner (ROFEX) opens new avenues of granular flow investigation due to its very high temporal resolution. This paper aims to track particles movements and evaluate the local grain velocity during silo discharging process in the case of mass flow. The study has considered the use of the Seramis material, which can also serve as a type of tracer particles after impregnation, due to its porous nature. The presented image processing and analysis approach allows satisfyingly measuring individual particle velocities but also tracking their movements.

Keywords: mass flow; ultrafast X-ray CT; particle tracking; matrix of inertia

Permalink: https://www.hzdr.de/publications/Publ-26630
Publ.-Id: 26630


Production of 51Cr by proton irradiation of natV and purification by precipitation and ion exchange chromatography

Mansel, A.; Franke, K.

European demand for chromium has grown dramatically, leading to the need for a detailed understanding of recycling of steel sludges and separation methods. To simulate these processes, we will use the radiotracer technique. 51Cr (T1/2 = 27.7 d) was choosen as a radionuclide. The isotope can be produced by the nuclear reaction natV(p,n)51Cr at a cyclotron. We used our recently installed cyclotron Cyclone® 18/9 (IBA) for the irradiation of natV (99.75% 51V). The vanadium foil was put in an aluminium holder with a diameter of 10 mm and a depth of 100 µm. The target was covered by a 100 µm thick aluminium foil. The irradiation was done at a beam of 16 MeV protons and a current of 10 µA for 4 hours. For the separation of 51Cr we established a multistage treatment. After cooling for 20 hours, the vanadium foil was dissolved with 2 ml conc. nitric acid. After addition of 20 mg iron(III) chloride, the hydroxide was subjected to a threefold cycle of precipitation with ammonia and dissolution with nitric acid. Vanadium(V) is soluble under these conditions. The separation of the radionuclide 51Cr and iron(III) was performed by ion exchange chromatography with AG 1-X8 (BIORAD) in conc. HCl. The 51Cr solution was eluted on the resin and the resin was washed six times with 2 ml conc. hydrochloric acid to remove the iron(III). The combined 51Cr solutions were evaporated to dryness and the residue was dissolved in 0.01 M sulfuric acid. The detection of 51Cr was done by gamma-counting (320 keV; 9.91%). The radiochemical yield was 66% at a production rate of 0.575 MBq/µAh.

Keywords: Radiochromium; Vanadium target; Cyclotron; Proton induced nuclear reaction; Radiochemical separation

  • Lecture (Conference)
    18th Radiochemical Conference (RadChem2018), 13.-18.05.2018, Marianske Lazne (Marienbad), Czech Republic

Permalink: https://www.hzdr.de/publications/Publ-26629
Publ.-Id: 26629


Melanoma brain metastases: Local therapies, targeted therapies, immune checkpoint inhibitors and their combinations- chances and challenges

Kuske, M.; Rauschenberg, R.; Garzarolli, M.; Meredyth-Stewart, M.; Beissert, S.; Troost, E.; Glitza, I.; Meier, F.

Recent phase 2 trials have shown that BRAF/MEK inhibitors and immune checkpoint inhibitors are active in patients with melanoma brain metastases (MBM), reporting intracranial disease control rates of 50-75%. Furthermore, retrospective analyses suggest that combining stereotactic radiosurgery with immune checkpoint inhibitors or BRAF/MEK inhibitors prolongs overall survival. These data stress the need for interand multidisciplinary cooperation that takes into account the individual prognostic factors in order to establish the best treatment for each patient. Although the management of MBM has dramatically improved, a substantial number of patients still progress and die from brain metastases. Therefore, there is an urgent need for prospective studies in patients with MBM that focus on treatment combinations and sequences, new treatment strategies, and biomarkers of treatment response.
Moreover, further research is needed to decipher brain-specific mechanisms of therapy resistance.

Permalink: https://www.hzdr.de/publications/Publ-26628
Publ.-Id: 26628


Der Beitrag geowissenschaftlicher Forschung zur Erkundung von mineralischen Rohstoffen in Deutschland

Gutzmer, J.; Markl, G.

Invited keynote presentation for the 3rd BGR-Rohstoffkonferenz in Hannover.

  • Lecture (others)
    3. BGR-Rohstoffkonferenz, 29.-30.11.2017, Hannover, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26627
Publ.-Id: 26627


HIM-Time-of-Flight-SIMS at HZDR

Klingner, N.; Heller, R.; Hlawacek, G.; Möller, W.; Facsko, S.

HIM-TOF-SIMS at HZDR

Related publications

  • Lecture (Conference)
    PicoFIB Meeting, 31.01.2018, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26626
Publ.-Id: 26626


Clinical application of dual-energy computed tomography improves stopping-power prediction

Wohlfahrt, P.; Möhler, C.; Greilich, S.; Richter, C.

Purpose/Objective:

Assessment of accuracy and robustness of treatment planning on dual-energy CT (DECT) in a multi-step validation and clinical implementation scheme (Fig.1,2).

Material/Methods:

To ensure reliable translation of DECT into routine clinical application, scan settings and stopping-power prediction methods were optimized and validated using 13 different animal tissues and an anthropomorphic ground-truth phantom. The clinical relevance of DECT-based stopping-power prediction was evaluated on dual-spiral DECT scans of 102 brain-, 25 prostate- and 3 lung-tumor patients treated with protons. DECT-derived voxelwise correlations of CT number and stopping-power ratio (SPR) were used for adapting the clinically applied CT-number-to-SPR conversion (HLUT) and quantifying intra- and inter-patient variability.

Results:

The accuracy of DECT-based stopping-power prediction was within 0.3% stopping-power and 1mm range uncertainty of validation measurements. Clinically relevant mean range shifts (±1SD) of 1.2(±0.7)% for brain-, 1.7(±0.5)% for prostate- and 2.2(±1.2)% for lung-tumor patients were obtained between dose calculations using HLUT or DECT-derived SPR. These deviations were significantly reduced (p<<0.001, two-sample t-test) below 0.3% by HLUT refinement based on patient-specific DECT information. Still, the remaining large intra-patient soft tissue diversity of approx. 6% (95% CI) and age-dependent inter-patient bone variability of 5% cannot be considered by any HLUT-based range prediction.

Conclusion:

Additional tissue information provided by DECT allows for accurate stopping-power prediction and incorporation of patients’ tissue diversity in treatment planning. These advantages can contribute to reduce CT-related range uncertainty and have been gradually translated in our clinical routine: (1) DECT-derived pseudo-monoenergetic CT dataset with generic HLUT, (2) DECT-based HLUT adaptation and soon (3) patient-specific DECT-basted stopping-power prediction.

Keywords: proton therapy; range uncertainty; dual-energy CT

  • Lecture (Conference)
    57th Annual Particle Therapy Co-Operative Group (PTCOG) Meeting, 24.-26.05.2018, Cincinnati, Ohio, USA

Permalink: https://www.hzdr.de/publications/Publ-26625
Publ.-Id: 26625


Improved performance of laser wakefield acceleration by tailored self-truncated ionization injection

Irman, A.; Couperus, J. P.; Debus, A.; Köhler, A.; Krämer, J. M.; Pausch, R.; Zarini, O.; Schramm, U.

We report on tailoring ionization-induced injection in laser wakefield acceleration so that the electron injection process is self-truncating following the evolution of the plasma bubble. Robust generation of high-quality electron beams with shot-to-shot fluctuations of the beam parameters better than 10% is presented in detail. As a novelty, the scheme was found to enable well-controlled yet simple tuning of the injected charge while preserving acceleration conditions and beam quality. Quasimonoenergetic electron beams at several 100MeV energy and 15% relative energy spread were routinely demonstrated with a total charge of the monoenergetic feature reaching 0.5 nC. Finally these unique beam parameters, suggesting unprecedented peak currents of several 10 kA, are systematically related to published data on alternative injection schemes.

Keywords: Self-Truncation Ionization Injection; beam loading; laser wakefield acceleration

Related publications

Permalink: https://www.hzdr.de/publications/Publ-26624
Publ.-Id: 26624


Rhenium recovery from diluted solutions by solvent extraction

Helbig, T.; Scharf, C.

A total of 230.000 tons of the so called “Theisenschlamm”, a waste material of the former copper shale processing in the Mansfeld region, was deposited between the years 1978 and 1990. Besides about 20 wt.-% of zinc and minor amounts of lead, copper and tin, this material also contains valuable strategic elements, like rhenium and germanium. Nowadays rhenium is used as an important alloying element in nickel-base superalloys, or in catalysts.
The r4-project “Theisenschlamm” aims at a recovery of the valuable metal content by bioleaching, followed by element specific separation methods. An effective method for the selective separation and concentration of metals is solvent extraction where an organic phase is used to extract the elements of interest from an aqueous phase. But since the metal concentrations in the bioleaching solution are low, the processing is challenging. However, there are multiple parameters allowing an optimization of the solvent extraction process. The findings for a selective enrichment of rhenium from synthetic (bioleaching) solution will be presented in this talk.

  • Lecture (Conference)
    67. Berg- und Hüttenmännischer Tag, 08.-10.06.2016, Freiberg, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26623
Publ.-Id: 26623


Recovery of Rhenium from Low Concentrated Bioleaching Solutions by Solvent Extraction

Helbig, T.; Scharf, C.

The r4-project "Theisenschlamm" focuses on the recovery of elements of strategic economic importance (like Rhenium or Molybdenum). The first step within the research approach is bioleaching of the Theisenschlamm, which is a waste material of the former copper shale processing in the Mansfeld region (Germany). As a next process step the project partners investigate different element selective separation methods to recover the valuable elements from the bioleaching solution. An efficient rhenium recovery from synthetic (bioleaching) solutions is achieved using solvent extraction with teriary amines. It could be shown that rhenium can be enriched in the organic phase and that a good selectivity over zinc, copper, cobalt, germanium and iron(III) is obtained.

  • Poster
    "24 Stunden für Ressourceneffizienz", Ressourceneffizienz-Kongress für Nachwuchsforscherinnen und Nachwuchsforscher, 14.-15.02.2017, Pforzheim, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26622
Publ.-Id: 26622


Atomistic study of the hardening of ferritic iron by Ni-Cr decorated dislocation loops

Bonny, G.; Bakaev, A.; Terentyev, D.; Zhurkin, E.; Posselt, M.

The exact nature of the radiation defects causing hardening in reactor structural steels consists of several components that are not yet clearly determined. While generally, the hardening is attributed to dislocation loops, voids and secondary phases (radiation-induced precipitates), recent advanced experimental and computational studies point to the importance of solute-rich clusters (SRCs). Depending on the exact composition of the steel, SRCs may contain Mn, Ni and Cu (e.g. in reactor pressure vessel steels) or Ni, Cr, Si, Mn (e.g. in high-chromium steels for generation IV and fusion applications). One of the hypotheses currently implied to explain their formation is the process of radiation-induced diffusion and segregation of these elements to small dislocation loops (heterogeneous nucleation), so that the distinction between SRCs and loops becomes somewhat blurred. In this work, we perform an atomistic study to investigate the enrichment of loops by Ni and Cr solutes and their interaction with an edge dislocation. The dislocation loops decorated with Ni and Cr solutes are obtained by Monte Carlo simulations, while the effect of solute segregation on the loop's strength and interaction mechanism is then addressed by large scale molecular dynamics simulations. The synergy of the Cr-Ni interaction and their competition to occupy positions in the dislocation loop core are specifically clarified.

Keywords: Iron; Ferritic steel; Precipitation; Dislocation; Molecular dynamics

  • Journal of Nuclear Materials 498(2018), 430-437

Permalink: https://www.hzdr.de/publications/Publ-26621
Publ.-Id: 26621


Causative treatment of acid aspiration induced acute lung injury – recent trends from animal experiments and critical perspective

Gramatté, J.; Pietzsch, J.; Bergmann, R.; Richter, T.

Aspiration of low-pH gastric fluid leads to an initial pneumonitis, which may become complicated by subsequent pneumonia or acute respiratory distress syndrome. Current treatment is at best supportive, but there is growing experimental evidence on the significant contribution of both neutrophils and platelets in the development of this inflammatory pulmonary reaction, a condition that can be attenuated by several medicinal products. This review aims to summarize novel findings in experimental models on pathomechanisms after an acid-aspiration event. Given the clinical relevance, specific emphasis is put on deduced potential experimental therapeutic approaches, which make use of the characteristic alteration of microcirculation in the injured lung.

Keywords: Acute respiratory distress syndrome; critical care medicine; pneumonitis; pulmonary inflammation; pulmonary blood flow; targeted anti-inflammatory therapies

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Permalink: https://www.hzdr.de/publications/Publ-26620
Publ.-Id: 26620


The Transition from a Thin Film to a Full Magnonic Crystal and the Role of the Demagnetizing Field

Langer, M.; Röder, F.; Gallardo, R. A.; Schneider, T.; Stienen, S.; Gatel, C.; Hübner, R.; Lenz, K.; Lindner, J.; Landeros, P.; Fassbender, J.

The transition from a film to a full magnonic crystal is studied by sequentially ion-milling a 40 nm Ni80Fe20 film. The spin-wave resonances of each stage are detected by ferromagnetic resonance for both in-plain field main axes. Theoretical calculations and micromagnetic simulations yield the individual mode profiles, which are analyzed in order to track changes of the mode character. The latter is strongly linked to the evolution of the internal demagnetizing field. It’s role is further studied by electron holography measurements of a hybrid magnonic crystal with 10 nm deep surface modulation. The complex effects of mode coupling, mode localization and anisotropy-like contributions by the internal field are unraveled. Simple transition rules from the 𝑛th film mode to the 𝑚th mode of the full magnonic crystal are formulated.

Keywords: Ferromagnetic resonance; magnonic crystals; demagnetizing fields; thin films; spin waves

Related publications

  • Poster
    81. Frühjahrstagung der Sektion Kondensierte Materie der DPG, 19.-24.03.2017, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26619
Publ.-Id: 26619


The Role of the Demagnetizing Fields in the Transition from Thin Films to Magnonic Crystals

Lenz, K.; Langer, M.; Röder, F.; Gallardo, R. A.; Schneider, T.; Stienen, S.; Gatel, C.; Hübner, R.; Lindner, J.; Landeros, P.; Fassbender, J.

The transition from a film to a full magnonic crystal is studied by sequentially ion-milling a periodic stripe pattern into a 40 nm thick Ni$_{80}$Fe$_{20}$ film. The spin-wave resonances of each milling stage are detected by ferromagnetic resonance for both in-plain main field axes, i.e. parallel and perpendicular to the stripe pattern. Theoretical calculations and micromagnetic simulations yield the individual mode profiles, which are analyzed in order to track changes of the mode character. The latter is strongly linked to the evolution of the internal demagnetizing field. It’s role is further studied and imaged by electron holography measurements on a hybrid magnonic crystal, which is made with a 10 nm deep surface modulation. The complex effects of mode coupling, mode localization, and anisotropy-like contributions by the internal field are unraveled. Simple transition rules from the $𝑛^_\mathrm{th}$ film mode to the $𝑚\mathrm{th}$ mode of the full magnonic crystal are formulated.
This work has been supported by DFG grant KL2443/5-1.

Keywords: Ferromagnetic resonance; magnonic crystals; demagnetizing fields

Related publications

  • Poster
    Magnonics 2017, 07.-11.08.2017, Oxford, United Kingdom

Permalink: https://www.hzdr.de/publications/Publ-26618
Publ.-Id: 26618


Maternal immune activation results in complex microglial transcriptome signature in the adult offspring that is reversed by minocycline treatment

Mattei, D.; Ivanov, A.; Ferrai, C.; Jordan, P.; Guneykaya, D.; Buonfiglioli, A.; Schaafsma, W.; Przanowski, P.; Deuther-Conrad, W.; Brust, P.; Hesse, S.; Patt, M.; Sabri, O.; Ross, T. L.; Eggen, B. J. L.; Bodecke, E. W. G. M.; Kaminska, B.; Beule, D.; Pombo, A.; Kettenmann, H.; Wolf, S. A.

Maternal immune activation (MIA) during pregnancy has been linked to an increased risk of developing psychiatric pathologies in later life. This link may be bridged by a defective microglial phenotype in the offspring induced by MIA, as microglia have key roles in the development and maintenance of neuronal signaling in the central nervous system. The beneficial effects of the immunomodulatory treatment with minocycline on schizophrenic patients are consistent with this hypothesis. Using the MIA mouse model, we found an altered microglial transcriptome and phagocytic function in the adult offspring accompanied by behavioral abnormalities. The changes in microglial phagocytosis on a functional and transcriptional level were similar to those observed in a mouse model of Alzheimer’s disease hinting to a related microglial phenotype in neurodegenerative and psychiatric disorders. Minocycline treatment of adult MIA offspring reverted completely the transcriptional, functional and behavioral deficits, highlighting the potential benefits of therapeutic targeting of microglia in psychiatric disorders.

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Permalink: https://www.hzdr.de/publications/Publ-26617
Publ.-Id: 26617


Circular Economy

Reuter, M. A.

Prof Markus Reuter, Director at the Helmholtz Institute for Resource Technology in Freiberg in Germany, was awarded the degree Doctor of Engineering (DEng), honoris causa for his outstanding contributions to the science and technology of the production and recycling of metals, as well as to the integration of academic research and practice. His work on recycling, design for recycling, and resource efficiency has contributed towards the creation of processes and tools to develop a sustainable society.

  • Lecture (others)
    Awarding of Degrees, Diplomas and Certificates (including Doctoral Degrees), 04.-08.12.2017, Stellenbosch, Südafrika

Permalink: https://www.hzdr.de/publications/Publ-26616
Publ.-Id: 26616


Digitizing the Circular Economy

Reuter, M. A.

Metallurgy is a key enabler of a circular economy (CE), its digitization is the metallurgical Internet of Things (m-IoT). In short: Metallurgy is at the heart of a CE, as metals all have strong intrinsic recycling potentials. Process metallurgy, as a key enabler for a CE, will help much to deliver its goals. The first-principles models of process engineering help quantify the resource efficiency (RE) of the CE system, connecting all stakeholders via digitization. This provides well-argued and first-principles environmental information to empower a tax paying consumer society, policy, legislators, and environmentalists. It provides the details of capital expenditure and operational expenditure estimates. Through this path, the opportunities and limits of a CE, recycling, and its technology can be estimated. The true boundaries of sustainability can be determined in addition to the techno-economic evaluation of RE. The integration of metallurgical reactor technology and systems digitally, not only on one site but linking different sites globally via hardware, is the basis for describing CE systems as dynamic feedback control loops, i.e., the m-IoT. It is the linkage of the global carrier metallurgical processing system infrastructure that maximizes the recovery of all minor and technology elements in its associated refining metallurgical infrastructure. This course will illustrate some of these concepts with hands-on training.

Keywords: circular economy; recycling

  • Invited lecture (Conferences)
    Digitizing the Circular Economy / Summer school, 17.-20.07.2017, Leuven, Belgien

Permalink: https://www.hzdr.de/publications/Publ-26615
Publ.-Id: 26615


Diffuse interface model to simulate the rise of a fluid droplet across a cloud of particles

Lecrivain, G.; Kotani, Y.; Yamamoto, R.; Hampel, U.; Taniguchi, T.

A large variety of industrial and natural systems involve the adsorption of solid particles to the fluidic interface of droplets in motion. A diffuse interface model is here suggested to directly simulate the three-dimensional dynamics of a fluid droplet rising across a cloud of large particles. In this three-phase model the two solid-fluid boundaries and the fluidic boundary are replaced with smoothly spreading interfaces. A significant advantage of the method lies in the fact that the capillary effects, the three-phase flow hydrodynamics, and the inter-particle collisions are all resolved. We first report important numerical limitations associated with the inter-particle collisions in diffuse interface models. In a second stage the effect of the particle concentration on the terminal velocity of a rising fluid droplet is investigated. It is found that, in a quiescent environment, the terminal velocity of the rising the fluid droplet decreases exponentially with the particle concentration. This exponential decay is also confirmed by a simple rheological model.

Keywords: Diffuse interface model; rising droplet; particles at fluidic interface; direct numerical simulation; three phase flows

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Permalink: https://www.hzdr.de/publications/Publ-26614
Publ.-Id: 26614


Attachment of non-spherical particles to the fluidic surface – Experiment and direct numerical simulations

Lecrivain, G.; Eckert, K.; Hampel, U.; Yamamoto, R.; Taniguchi, T.

The attachment of colloidal particles to the fluidic surface of immersed fluid droplets is central to a wide variety of industrial applications, among which stand out the recovery of minerals by gas bubbles, a process known as flotation. The flotation process involves the attachment of hydrophobised colloidal particles to the surface of rising air bubbles, while the commercially valueless hydrophilic material settles down the cell. Experimental and numerical works dealing with the attachment of non-spherical particles to a fluidic interface are here presented. Using an optical microbubble sensor the various microprocesses associated with the colloidal attachment of elongated fibers are first investigated. In a second stage direct numerical simulations are used to predict the dynamics of such particles at a fluidic interface. Unlike spherical particles, it is found that plate-like particles attach more rapidly to a fluidic interface and are subsequently harder to dislodge when subject to an external force.

Keywords: Flotation Fundamentals: Physics and Chemistry; bubble-particle interactions

  • Poster
    Flotation '17, 13.-16.11.2017, Cape Town, South Africa

Permalink: https://www.hzdr.de/publications/Publ-26613
Publ.-Id: 26613


Structure variations within certain rare earth-disilicides

Nentwich, M.; Zschornak, M.; Sonntag, M.; Gumeniuk, R.; Gemming, S.; Leisegang, T.; Meyer, D. C.

The dimorphism of the RSi2 and R2TSi3 compounds is a well known phenomenon (R is an alkaline earth metal, rare earth metal or actinoide, T is a transition metal). They crystallize in structures, which derive from hexagonal AlB2 or tetragonal ThSi2 prototypes. Despite their local similarities, both prototypes do not have a common root in the Bärnighausen diagram, which summarizes the symmetry relations between the high symmetrical basic structures and their lower symmetric variations.
We performed an extensive literature research based on more than 400 structure reports of the RSi2 and R2TSi3 compounds. To gain an overview of the various structure reports within these compounds we summarized composition, lattice parameters a and c, ratios c/a, formula units per unit cell, and structure types in an extensive table. We performed DFT calculations on carefully chosen compounds to evaluate the probability of a successful synthesis. Finally, we discuss peculiarities of symmetry distribution among the RSi2 and R2TSi3 compounds and several correlations related to structural parameters.
We found that the thermal treatment has a massive effect to the formation of superstructures. Furthermore, there are two different kinds of hexagonal R2TSi3 compounds being ionic or metallic, depending on the R element. Additionally, the main influence to the variation of the Si-T bonds is the electronic interplay between R element and Si lattice rather than the R radii.

Keywords: rare earth; silicides; density-functional

  • Lecture (Conference)
    IUCR 2017 - 24th Congress of the International Union of Crystallography, 21.-27.08.2017, Hyderabad, Indien

Permalink: https://www.hzdr.de/publications/Publ-26612
Publ.-Id: 26612


THz-spectroscopic studies on electron dynamics in a GaAs single quantum well and an InAs single quantum dot

Schneider, H.; Schmidt, J.; Stephan, D.; Bhattacharyya, J.; Winnerl, S.; Dimakis, E.; Helm, M.

Intense, spectrally narrow terahertz fields from the free-electron laser (FEL) facility FELBE in Dresden, Germany, provide interesting opportunities for investigating the carrier dynamics in III-V semiconductor nanostructures. This talk will focus on recent FEL studies on dressing intersubband transitions in a wide GaAs single quantum well using terahertz time-domain spectroscopy, and on exciton dynamics in a single InAs/GaAs quantum dot using time-dependent photoluminescence.

Keywords: terahertz free-electron laser; intersubband; exciton; quantum well; quantum dot

Related publications

  • Invited lecture (Conferences)
    14-th International Conference on Intersubband Transitions in Quantum Wells (ITQW2017), 10.-15.09.2017, Singapore, Singapore

Permalink: https://www.hzdr.de/publications/Publ-26611
Publ.-Id: 26611


Luminescence of defects in the structural transformation of layered tin dichalcogenides

Sutter, P.; Komsa, H.-P.; Krasheninnikov, A. V.; Huang, Y.; Sutter, E.

Layered tin sulfide semiconductors are both of fundamental interest and attractive for energy conversion applications. Sn sulfides crystallize in several stable bulk phases with different Sn:S ratios (SnS2, Sn2S3, and SnS), which can transform into phases with a lower sulfur concentration by introduction of sulfur vacancies (VS). How this complex behavior affects the optoelectronic properties remains largely unknown but is of key importance for understanding light-matter interactions in this family of layered materials. Here, we use the capability to induce VS and drive a transformation between few-layer SnS2 and SnS by electron beam irradiation, combined with in-situ cathodolumines- cence spectroscopy and ab-initio calculations to probe the role of defects in the luminescence of these materials. In addition to the characteristic band-edge emission of the endpoint structures, our results show emerging luminescence features accompanying the SnS2 to SnS transformation. Comparison with calculations indicates that the most prominent emission in SnS2 with sulfur vacancies is not due to lumi- nescence from a defect level but involves recombination of excitons bound to neutral VS in SnS2. These findings provide insight into the intrinsic and defect-related optoelectronic properties of Sn chal- cogenide semiconductors.

Keywords: 2D materials; spectroscopy; defects; first-principles calculations

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Permalink: https://www.hzdr.de/publications/Publ-26610
Publ.-Id: 26610


Terahertz dephasing of Landau level transitions in graphene

Schneider, H.; König-Otto, J. C.; Pashkin, A.; Helm, M.; Winnerl, S.; Wang, Y.; Belyanin, A.

Using degenerate four-wave mixing (DFWM), we have investigated the coherent polarization between the lowest Landau levels in graphene under resonant excitation with narrowband THz pulses. A pronounced DFWM signal is observed and its dependence on THz field strength and magnetic field detuning is explored and compared with theoretical expectations.

Keywords: terahertz; graphene; four-wave mixing; coherent polarization; free-electron laser

Related publications

  • Lecture (Conference)
    The 42nd International Conference on Infrared, Millimeter and Terahertz Waves (IRMMW-THz'2017), 27.08.-01.09.2017, Cancun, Mexico
  • Contribution to proceedings
    The 42nd International Conference on Infrared, Millimeter and Terahertz Waves (IRMMW-THz'2017), 27.08.-01.09.2017, Cancun, Mexico
    Proceedings of the IRMMW-THz'2017
    DOI: 10.1109/IRMMW-THz.2017.8066873

Permalink: https://www.hzdr.de/publications/Publ-26609
Publ.-Id: 26609


Protecting Pulsed High-Power Lasers with Real-Time Image Classification

Kelling, J.; Gebhardt, R.; Helbig, U.; Bock, S.; Schramm, U.; Juckeland, G.

Learn how to combine computer vision techniques and deep learning to improve the sensitivity of a real-time, GPU-powered safety system. In Petawatt laser systems, firing at 10Hz, suddenly appearing scatterers can damage components.
Damage(-spreading) can be avoided by suspending operation immediately on occurrence of such an event.

We present our approach for the automatic detection of critical failure states from intensity profiles of the laser beam. By Incorporating quick feature detection and learned heuristics for feature classification, both real-time constraints and limited available training data are accommodated. Localization of triggering feature is crucial for when the problem is located in non-sensitive sections and will not be removed from the beam in production.

  1. extended abstract:
High-power lasers are operated at our research center for investigations of exotic states of matter and medical applications, among others. This project to improve the automatic shutdown/interlock system of two lasers (one in operation, one currently under construction) has the goal of reducing the probability of, potentially expensive, damage-spreading scenarios, while at the same time avoiding false alarms at high sensitivity.
The project to be presented is currently in a proof-of-concept phase, with workable proof existing for a specific failure mode for which data was available (the breaking of a single mirror). Next to the 100ms real-time constraint, the lack sufficient training data, demanded a two-stage approach to solve this problem: Classical feature detection with a low threshold works as a fast anomaly detector, followed by feature-classification using CNNs (mostly GoogLeNet) to identify true positive triggers.
From this, the audience can learn how to design for short response times (to which end we employ Caffe, OpenCV on GPU and use C++ as main programming language). The application also demonstrates how prior domain knowledge and known algorithms can be combine with machine learning to create heuristics to fill in gaps.

Keywords: Image Classification; Caffe; automatik Laser-safety shutdown; GoogLeNet

  • Lecture (Conference)
    GTC 2018 Silicon Valley, 26.-29.03.2018, San Jose, CA, USA
  • Lecture (Conference)
    1st MLC Workshop, 15.05.2018, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26608
Publ.-Id: 26608


The Exchange bias in oxygen-implanted Co/Au thin film heterostructures

Perzanowski, M.; Gregor-Pawłowski, J.; Zarzycki, A.; Böttger, R.; Hübner, R.; Potzger, K.; Marszałek, M.

Magnetic systems exhibiting exchange bias effect are being considered as functional parts of modern data storage devices. A model system for the investigation of this effect is an antiferromagnetic-ferromagnetic CoO/Co interface. In this paper we present the studies of magnetic properties of Co-CoO/Au multilayers where the cobalt oxide was formed by oxygen ion beam implantation. Special emphasis is given to the role of the oxygen concentration profile in the magnetic properties. By properly designed the implantation conditions (ion beam energy and fluence) it is possible to fabricate a system revealing controlled stepwise magnetization reversal process. This underlines the great potential of this approach to tailor the magnetic properties through modification of implantation profiles.

This work was supported by DAAD Service with contract No. PPP-PL 57214850 „Magnetic anisotropies in cobalt heterostructures induced by oxidation”.

Keywords: Ion Implantation; Magnetic multilayers

Related publications

  • Poster
    The European Conference Physics of Magnetism 2017, PM’17, 26.-30.06.2017, Poznan, Polen

Permalink: https://www.hzdr.de/publications/Publ-26607
Publ.-Id: 26607


Metallurgy key enabler of the Circular Economy

Reuter, M. A.

Metallurgy is a key enabler of a circular economy (CE), its digitalization is the metallurgical Internet of Things (m-IoT). In short: Metallurgy is at the heart of a CE, as metals all have strong intrinsic recycling potentials. Process metallurgy, as a key enabler for a CE, will help much to deliver its goals. The first-principles models of process engineering help quantify the resource efficiency (RE) of the CE system, connecting all stakeholders via digitalization. This provides well-argued and first-principles environmental information to empower a tax paying consumer society, policy, legislators, and environmentalists. It provides the details of capital expenditure and operational expenditure estimates. Through this path, the opportunities and limits of a CE, recycling, and its technology can be estimated.

Keywords: Circular Economy; Circular Economy Engineering; Fairphone; Recycling

  • Lecture (others)
    Workshop, 30.11.2017, Madrid, Spanien

Permalink: https://www.hzdr.de/publications/Publ-26606
Publ.-Id: 26606


The Akademii Nauk ice core and solar activity

Fritzsche, D.; von Albedyll, L.; Merchel, S.; Opel, T.; Rugel, G.; Scharf, A.

Ice cores are well-established archives for paleo-environmental studies, but this requires a reliable ice core chronology. The concentration of cosmogenic radionuclides in ice cores reflects the solar activity in the past and, thus, can be used as a dating tool for ice cores. Accelerator mass spectrometry (AMS) allows the determination of nuclides in high resolution. Here, we present results of a 10Be study in an ice core from Akademii Nauk (Severnaya Zemlya, Russian Arctic). AMS analyses of more than 500 samples were carried out using the 6 MV accelerator facility of the Ion Beam Center of the Helmholtz-Zentrum Dresden-Rossendorf. For the time period 400 to 2000 CE the temporal variations of 10Be reflect the centennial variations of solar activity known from similar studies of Greenlandic ice cores and from 14C production reconstructions. The 10Be peak of 775 CE, today understood as result of the strongest known solar particle storm, was found by high-resolution core analysis. This peak is used as a tie point (additionally to volcanic reference horizons) for the development of the depth-age relationship of the Akademii Nauk ice core. Indications of the so called “Carrington Event” of 1859 CE, 20 to 30 times weaker than 775 CE, could also be detected in the core.

Keywords: AMS; climate; ice core

Related publications

  • Lecture (Conference)
    27th International Polar Conference, 25.-29.03.2018, Rostock, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26603
Publ.-Id: 26603


Search for Recent 60Fe Deposition in Antarctic Snow via AMS

Koll, D.; Busser, C.; Faestermann, T.; Fimiani, L.; Gomez-Guzman, J. M.; Kinast, A.; Korschinek, G.; Krieg, D.; Lebert, M.; Merchel, S.; Sterba, J.; Welch, J.; Kipfstuhl, S.

60Fe with a half-life of 2.6 Myr [1] is produced in stellar Environments and ejected into space mainly by core-collapse supernovae. Due to its long half-life, traces of 60Fe were deposited and incorporated on Earth and on the Moon and have been detected there [2,3,4,5].
Here, a new possible reservoir will be presented: Antarctic snow.
This time, in contrast to former investigations, any signal detected would be recent material which might origin from the local interstellar cloud. 500 kg of Antarctic snow were chemically processed and are going to be analyzed by AMS in Munich at the 14 MV tandem. First results for 60Fe measurements will be presented as well as chemical extraction methods applied.
[1] Rugel et. al. ; Phys. Rev. Lett. 103, 072502 (2009)
[2] Knie et. al. ; Phys. Rev. Lett. 93, 171103 (2004)
[3] Ludwig et. al. ; PNAS 113 (33), 9232-9237 (2016)
[4] Wallner et. al. ; Nature 532, 69-72 (2016)
[5] Fimiani et. al. ; Phys. Rev. Lett. 116, 151104 (2016)

Keywords: supernovae; AMS

  • Lecture (Conference)
    DPG Frühjahrstagung des Arbeitskreises Atome, Moleküle, Quantenoptik und Plasmen (AMOP), 04.-09.03.2018, Erlangen, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26602
Publ.-Id: 26602


The Flux of Interplanetary Dust on Earth: Status

Krieg, D.; Busser, C.; Faestermann, T.; Fimiani, L.; Gomez-Guzman, J. M.; Kinast, A.; Koll, D.; Korschinek, G.; Lebert, M.; Merchel, S.; Welch, J.; Kipfstuhl, S.

Earth’s accumulation rate of Interplanetary Dust Particles (IDPs) is a matter of discussion, ranging from 5 (middle atmosphere measurements) up to 300 (space borne dust detection) tons per day. A new approach for a more precise measurement of this accumulation rate is made by extracting manganese from 500 kg of Antarctic snow collected near the Kohnen station, and measuring the concentration of 53Mn with AMS at the MLL in Munich.
This 53Mn (t1/2 = 3.7 Ma) is mostly produced by nuclear reactions of cosmic rays on the iron of the IDPs. Relating the amount of 53Mn to the precipitation rate, a meridional transport and deposition model based on 10Be measurements, and to a chemical model of meteoritic ablation will help to reduce the uncertainty of the IDP input on Earth. The method of our measurement and the status of this study will be discussed.

Keywords: IDP; AMS

  • Lecture (Conference)
    DPG Frühjahrstagung des Arbeitskreises Atome, Moleküle, Quantenoptik und Plasmen (AMOP), 04.-09.03.2018, Erlangen, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26601
Publ.-Id: 26601


Phase Formation and Selectivity on Cr (co-)Doped TiOU+2082 through Interface Engineering and Post-Deposition Flash Lamp Annealing

Gago, R.; Prucnal, S.; Palomares, J.; Jiménez, I.; Hübner, R.

Many applications of TiO2 partially rely on its good performance as solvent for numerous impurities [1]. In particular, metal (cation) dopants have been used to functionalize or enhance TiO2 as catalyst [2], diluted magnetic semiconductor [3] or transparent conductor [4]. One of the most interesting properties of TiO2 relies on its photoactivity, exploited in many applications from catalysis, hydrogen production, pigments or solar cells [2]. However, TiO2 is mostly active in the ultraviolet (UV) region of the solar spectrum (band-gap > 3 eV) and there is a great interest in band-gap narrowing of TiO2 to achieve visible-light (VISL) response [2]. Metal doping do so and increases VISL absorption significantly but, unfortunately, introduces structural distortions in the host matrix that result in carrier recombination centers [5]. Apart from the structural quality, another relevant consideration on the production of doped TiO2 relies on the particular oxide matrix phase (anatase/rutile) [6]. For example, anatase has superior photoactivity than rutile although phase mixtures with high anatase content may present even higher photoactivity [7]. Therefore, special attention should also be devoted to the phase selectivity. Moreover, (heavily) doped TiO2 may display a completely different electronic structure that the pristine oxide material.
The aim of this study is to promote customized phase formation in Cr (co-)doped TiO2 films produced by magnetron co-sputtering. Special attention is paid to the structural arrangements around host and dopant sites from the X-ray absorption near-edge structure. We report the conditions driving to single- or mixed-phase formation with the novelty of exploring film architectures based on interface engineering and/or post-deposition flash-lamp annealing (FLA) [8]. The latter is a non-contact rapid thermal processing extensively used in Microelectronics but yet to be explored in the present context. Hence, FLA can be attractive for many industrial applications dealing with the synthesis of band-gap engineered TiO2-based materials.
REFERENCES:
[1] Sacerdoti et al., J. Solid State Chem. 177, 1781 (2004); [2] Henderson, Surf. Sci. Rep. 66, 185 (2011); [3] Matsumoto et al. Science 291, 854 (2001); [4] Furubayashi et al., Appl. Phys. Lett. 86, 252101 (2005); [5] Serpone et al., J. Phys. Chem. B 110, 24287 (2006); [6] Yang, et al., Phys. Rev. B 76, 195201 (2007); [7] Scanlon et al., Nat. Mater. 12, 798 (2013); [8] D. Reichel et al., Phys. Status Solidi C 9, 2045 (2012)

Related publications

  • Invited lecture (Conferences)
    2017 MRS Fall Meeting & Exhibit, 26.11.-01.12.2017, Boston, MA, USA

Permalink: https://www.hzdr.de/publications/Publ-26600
Publ.-Id: 26600


Energy-filtered TEM studies on silicon nanoparticles acting as quantum dots in single electron transistors

Wolf, D.; Xu, X.; Prüfer, T.; Hlawacek, G.; Bischoff, L.; Möller, W.; Engelmann, H.-J.; Facsko, S.; von Borany, J.; Heinig, K.-H.; Hübner, R.

The miniaturization of computing devices and the introduction of the internet of things generate an increasing demand for the development of low-power devices. Single electron transistors (SETs) are ideally suited for this demand, because they are promising very low power dissipation devices. For roomtemperature operation of an SET it is necessary to create a single quantum dot (QD) with a diameter below 5 nm exactly positioned between source and drain at a tunnel distance of only a few nanometers. Within the IONS4SET project [1], we aim to achieve this goal by ion irradiation induced Si-SiO2 mixing and subsequent thermally activated self-assembly of single Si nanocrystals surrounded by a thin SiO2 layer. This process is illustrated in Fig. 1 by means of simulations results.
Here, we present energy-filtered (EF)TEM studies in order to monitor the influence of process parameters, such as stack geometry, ion fluence for irradiation, annealing temperature and annealing time, on the self-assembly of Si QDs. Fig. 2 shows representative EFTEM micrographs of a Si-SiO2-Si layer stack imaged using different electron energy-loss (EEL) windows. The Si plasmon-loss filtered images yield thereby the best signal-to-noise for detection of Si nanodots, because the Si plasmon peak is the most intense peak with a relatively small FWHM of 4 eV in the EEL spectrum.
Moreover, since the obtained (raw) EFTEM images provide only qualitative information about the Si concentration in the oxide layer, they cannot give a clear answer if for example the observed contrast corresponds to one or more Si nanodots (NDs) in projection. Therefore, EFTEM images are quantified further by converting them into so-called thickness over mean free path length (MFPL) t/λSi maps, in which λSi is the MFPL corresponding to the chosen energy range. The experimental t/λSi maps are then compared with simulated t/λSi maps of a single Si ND. Fig. 3 depicts that our approach enables us not only to detect single Si nanodots (Fig. 3c,e) but also to count them if they are arranged in projection direction of the electron beam (Fig. 3d,f). For these experiments, the layer stacks were irradiated with Ne+ ions within an Orion NanoFab (Zeiss). This allows controlled line or point irradiation and ensures Si QD formation within a confined region. In a next step, confined regions will be established by fabricated nanopillars that enhances reproducibility as the volume relevant for the self-assembly of the nanocluster will be better defined.
[1] We thank for financial support within the European Union"s Horizon 2020 research and innovation program under Grant Agreement No 688072 (Project IONS4SET).

Related publications

  • Lecture (Conference)
    Microscopy Conference 2017, MC 2017, 21.-25.08.2017, Lausanne, Switzerland
  • Contribution to proceedings
    Microscopy Conference 2017, MC 2017, 21.-25.08.2017, Lausanne, Switzerland, 12-14

Permalink: https://www.hzdr.de/publications/Publ-26599
Publ.-Id: 26599


Insights into the 3D electric potential structure of III-V semiconductor core-multishell nanowires through combined STEM and holographic tomography

Wolf, D.; Hübner, R.; Sturm, S.; Lubk, A.

Off-axis electron holographic tomography (EHT) has been successfully applied to reveal the 3D structure of III-V semiconductor core-shell nanowires (NWs) [1,2]. The technique probes the phase shift of an electron wave transmitted through such a NW that is proportional to the NWs projected electrostatic potential. Thus, a tilt series of phase images (projected potentials) can be used as input to compute a 3D tomogram of the electrostatic potential by tomographic reconstruction algorithms. Typically, the recovered 3D potential is dominated by the mean inner potential (MIP), which is related to the materials composition. Consequently, space charge potentials determining for example the electric properties, e.g., at interfaces or pn-junctions in semiconductors [2] may be superimposed by MIP variations caused by compositional changes within the heterostructures.
Here, we show on the example of a GaAs/AlGaAs core-multishell NW, how the space charge potentials can be uncovered from materials contrast (MIP) by determining the latter independently: To this end, high-angle annular dark-field (HAADF) STEM tomography was applied in addition to EHT on the same NW. STEM tomograms provide solely materials contrast that depends exponentially on the atomic number. Fig. 1 compares both methods in terms of the relation between reconstructed signal and projected property, exemplary for three different tomogram regions identified as pure Au, GaAs and AlGaAs: In case of EHT between the reconstructed potential and the MIP, and in case of STEM tomography between the reconstructed intensity and the atomic number. The latter relation enables converting the STEM tomogram in units of (mean) atomic numbers.
Tilt series were acquired from -70° to +71° with 3° tilt steps in holography mode, and from -68° to +68° with 2° tilt steps in STEM mode. Since phase images of axially scattered electrons are used for EHT, it suffers much more from diffraction contrast than STEM tomography (high-angle scattering). Consequently, only 39 projections could be used for tomographic reconstruction in the case of EHT compared to 68 in the case of STEM tomography. For this reason, resolution and contrast in the 3D potential are slightly lower than in the STEM tomogram, which can be seen on the cross-section of the NW in Fig. 2. Nevertheless, the core-shell structure, the ca. (5-10) nm thick GaAs shell acting as quantum well tube (QWT), and unintended Al segregations are clearly resolved in both cases. Last but not least, longitudinal slices (Fig.3) exhibit clear differences of both tomograms that strongly suggest additional local space-charge related potentials to be investigated in greater detail in a next step.
References:
[1] A Lubk, D Wolf, P Prete, N Lovergine, T Niermann, S Sturm and H Lichte, Phys. Rev. B 90 (2014) p. 125404.
[2] D Wolf, A Lubk, P Prete, N Lovergine and H Lichte, J. Phys. D: Appl. Phys. 49 (2016) p. 364004
[3] We thank N Lovergine of University of Salento, Lecce for provision of the samples.
[4] We thank the group of Michael Lehmann at TU Berlin for access to the TEM FEI Titan 80-300 Berlin Holography Special.
[5] DW acknowledges financial support within the European Union"s Horizon 2020 research and innovation program under Grant Agreement No 688072 (Project IONS4SET). AL has received funding from the European Research Council (ERC) under the European Union"s Horizon 2020 research and innovation programme (grant agreement No 715620).

Related publications

  • Poster
    Microscopy Conference 2017, MC 2017, 21.-25.08.2017, Lausanne, Switzerland
  • Contribution to proceedings
    Microscopy Conference 2017, MC 2017, 21.-25.08.2017, Lausanne, Switzerland, 753-755

Permalink: https://www.hzdr.de/publications/Publ-26598
Publ.-Id: 26598


Subsurface Engineering of Silicon for 3D Devices

Tokel, O.; Turnali, A.; Makey, G.; Elahi, P.; Ilday, S.; Colakoglu, T.; Yavuz, O.; Hübner, R.; Zolfaghari, M.; Pavlov, I.; Bek, A.; Turan, R.; Ilday, O.

Recently we have demonstrated a new 3D-laser-fabrication method which enabled, for the first time, creating highly-controlled subsurface structural modifications (structural imperfections, or defects) buried deep inside Silicon (Si) wafers [1]. Characterizing the material properties of these subsurface Si structures are very critical towards enabling new optical and micro-mechanical applications inside chips [2,3]. Here, we present optical, chemical and microscopic analysis of these buried structures. Specifically, Transmission Electron Microscopy (TEM) studies, Optical Birefringence Analysis and Selective Chemical Etching analysis of the modifications will be presented. Infrared Transmission Microscopy will be shown to be applicable for subsurface imaging, providing a diagnostic tool without damaging the samples.

Material properties of the disruptions in the crystal lattice are then exploited for fabricating various micro-devices. For instance, oxidation-reduction chemistry on laser-induced modifications enables the creation of highly-controllable, uniform and large-area micropillar arrays for solar cell applications, embedded microfludic channels for chip cooling and thru-Si vias for electrical interconnects in Si. These elements, which are challenging to form with conventional methods, can find use in various MEMS and electronics applications. The optical properties (refractive index change) of the structures are used to fabricate functional components such as lenses and gratings buried in chips. Further, the birefringence effect induced in Si may lead to holograms and other photonic applications, such as creating wave plates and polarizers. These functional optical and MEMS elements created inside Si, may find use in imaging and sensing in the near- and mid-infrared wavelength range, as well as in micro-devices towards micro-surgical tools, micro-motors, and micro-resonators. Thus, these capabilities are leading to a new fabrication approach in Si, which is fully CMOS compatible, rapid and mechanically robust, and builds on the optical,electrical and chemical properties of the modified volumes in Si.

[1] Tokel et. al., arxiv.org/abs/1409.2827
[2] Tokel et. al, Direct Laser Writing of Volume Fresnel Zone Plates in Silicon., CLEO/Europe - EQEC, Munich, Germany, 2015.
[3] Tokel et. al., 3D Functional Elements Deep Inside Silicon with Nonlinear Laser Lithography, APS March Meeting, Baltimore, USA, 2016.

Related publications

  • Poster
    2017 MRS Spring Meeting & Exhibit, 17.-21.04.2017, Phoenix, AZ, USA

Permalink: https://www.hzdr.de/publications/Publ-26597
Publ.-Id: 26597


Application of Ion Beams to Fabricate and Modify Properties of Dilute Ferromagnetic Semiconductors

Yuan, Y.; Helm, M.; Sawicki, M.; Dietl, T.; Zhou, S.

Dilute ferromagnetic semiconductors (DFS) have been investigated for more than two decades due to their potentials for spintronics. Mn doped III-V semiconductors have been regarded as the prototype of the type. In this contribution, we will show how ion beams can be utilized in fabricating and modifying DFS. First, ion implantation followed by pulsed laser melting (II-PLM) provides an alternative to low-temperature molecular beam epitaxy (LTMBE) to prepare diverse DFS. The prepared DFSs exhibit pronounced magnetic anisotropy, large X-ray magnetic circular dichroism, anomalous Hall effect and magnetoresistance [1-9]. Going beyond LTMBE, II-PLM is successful to bring two new members, GaMnP and InMnP, into the family of III-Mn-V. Both GaMnP and InMnP show clear signatures of ferromagnetism and an insulating behavior. Second, helium ions can be used to precisely compensate the holes while keeping the Mn concentration constant [10-12].
For a broad range of samples including (Ga,Mn)As and (Ga,Mn)(As,P) with various Mn and P concentrations, we observe a smooth decrease of TC over a wide temperature range with carrier compensation while the conduction is changed from metallic to insulating. We can tune the uniaxial magnetic easy axis of (Ga,Mn)(As,P) from out-of-plane to in-plane with an isotropic-like intermediate state. These materials synthesized or modified by ion beams provide an alternative avenue to understand how carrier-mediated ferromagnetism is influenced by localization.

Related publications

  • Lecture (Conference)
    20th International Conference on Surface Modification of Materials by Ion Beams, 09.-14.07.2017, Lisbon, Portugal

Permalink: https://www.hzdr.de/publications/Publ-26596
Publ.-Id: 26596


Modelling of turbulence modulation in bubbly flows with the aid of DNS

Ma, T.; Santarelli, C.; Ziegenhein, T.; Lucas, D.; Fröhlich, J.

Modelling of turbulence modulation in bubbly flows with the aid of DNS data

  • Poster
    15th Multiphase Flow Conference and Short Course, 14.-17.11.2017, Dresden, Deuschland

Permalink: https://www.hzdr.de/publications/Publ-26595
Publ.-Id: 26595


new model for bubble-induced turbulence based on direct numerical simulation data

Ma, T.; Santarelli, C.; Ziegenhein, T.; Lucas, D.; Fröhlich, J.

Three main issues are addressed in the present study. First, an appropriate time scale is selected with the aid of the energy spectra determined on the basis of the DNS data. Then, links between the unclosed terms in the transport equations of the turbulence quantities and the DNS data for small bubbles are established. Third, a suitably chosen iterative procedure employing the full Reynolds-averaged model provides suitable coefficients for the closure of the terms resulting from BIT while largely removing the influence of others. Here, using DNS data with iterations to obtain term-by-term match (Figure 1b) in the model equations avoids pitfalls of ad hoc models targeting the TKE only. At the same time these results validate the closure, exhibiting very good agreement with the DNS and better performance than the standard closures. Beyond the resulting model itself the study also furnishes a systematic procedure which is of general use. The model is now ready for use and can be employed in practical Euler-Euler simulations.

  • Lecture (Conference)
    The 3rd International Conference on Numerical Methods in Multiphase Flows, 26.-29.06.2017, Tokyo, Japan

Permalink: https://www.hzdr.de/publications/Publ-26594
Publ.-Id: 26594


DNS-based RANS closure for bubble-induced turbulence

Ma, T.; Santarelli, C.; Ziegenhein, T.; Lucas, D.; Fröhlich, J.

DNS-based RANS closure for bubble-induced turbulence

Keywords: DNS; RANS; bubble-induced turbulence

  • Lecture (Conference)
    ProcessNet Jahrestreffen Dresden, 14.-17.03.2017, Dresden, Deuschland

Permalink: https://www.hzdr.de/publications/Publ-26593
Publ.-Id: 26593


A contribution to turbulence modelling in bubbly flows

Ma, T.

Modelling turbulence in bubbly flows that arise in the engineering and environment is of great challenges for multiphase Computational Fluid Dynamics. In the present book various turbulence modelling approaches are investigated in bubble columns and bubbly channel flows. The considered approaches contain Scale Resolving Simulations and the traditional Reynolds-averaged Navier-Stokes closure. The focus is set on the representation of the so-called bubble-induced turbulence in the modelling framework. A major chapter addresses a complete route to construct such a model embedded in Euler-Euler approach with the aid of Direct Numerical Simulation data. This procedure is employed to propose an improved model for bubble-induced turbulence.

Keywords: Scale Resolving Simulation; Direct Numerical Simulation data; bubble-induced turbulence

  • Book (Authorship)
    Dresden: TUDpress, 2017

Permalink: https://www.hzdr.de/publications/Publ-26592
Publ.-Id: 26592


Simulation of Reconfigurable Field-effect Transistors: Impact of the NiSi2-Si Interfaces, Strain, and Crystal Orientation

Fuchs, F.; Schuster, J.; Gemming, S.

Reconfigurable transistors (RFETs) can be switched between electron and hole current by changing the polarity of the gate potential. The device performance of such a transistor is strongly dominated by the contact physics.
In this work, the electron transport across the NiSi2-Si interface is studied using the NEGF formalism and density functional theory. A new model is presented which relates the electron transport through the interface to the transfer characteristic of an RFET. The model is compared to experimental data showing good agreement.
Based on the model, the influence of strain and the choice of the crystal orientation is discussed. It is demonstrated that best symmetry between electron and hole current is achieved for the <110> orientation. Furthermore, this symmetry can be tuned by strain, which is not possible for the <100> and <112> orientations. A discussion of these differences based on band structure analysis will be given, too.

Keywords: Reconfigurable field-effect transistor; silicon; interface

  • Lecture (Conference)
    IHRS NanoNet Annual Workshop 2017, 16.-18.08.2017, Neuklingenberg, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26591
Publ.-Id: 26591


Injection locking of constriction based spin Hall nano-oscillators

Hache, T.; Weinhold, T.; Arekapudi, S. S. P. K.; Hellwig, O.; Schultheiss, H.

Spin-Hall nano-oscillators (SHNOs) are modern auto-oscillation devices. Their simple geometry allows for an optical characterization by Brillouin-Light-Scattering microscopy at room temperature. Here we report on the observation of auto-oscillations in constriction based SHNOs under the forcing influence of an added alternating current. We show the possibility of injection locking between the applied external signal and the auto-oscillations driven by a direct current. Within the locking range the frequency of the auto-oscillations is forced to the external stimulus. In addition the intensity of the oscillations is increased strongly and the linewidth decreases. Due to the controllability of the auto-oscillations of the magnetization, injection locking can be used to influence the properties of future communication technologies, i.e. based on synchronized constriction based spin Hall nano-oscillators arrays.

Keywords: spin Hall; spin Hall nano-oscillators; auto-oscillations; injection locking; phase locking; Auto-Oszillationen; Spin-Hall Nanooszillatoren

  • Poster
    2017 European School on Magnetism: Condensed Matter Magnetism : bulk meets nano, 09.-20.10.2017, Cargese, France
  • Poster
    Nano-Magnonics Workshop 2018, 19.-21.02.2018, Diemerstein, Kaiserslautern, Deutschland
  • Poster
    Intermag 2018, 23.-27.04.2018, Marina Bay Sands Convetion Center, Singapore
  • Poster
    IEEE Magnetics Society Summer school, 03.-08.06.2018, Universidas San Francisco de Quito, Equador
  • Poster
    The Joint European Magnetic Symposia 2018, 03.-07.09.2018, Rheingoldhalle, Mainz, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26590
Publ.-Id: 26590


Möglichkeiten der Kreislaufwirtschaft

Reuter, M. A.

Knapp 780.000 Tonnen Elektro-Altgeräte wurden laut Umweltbundesamt im Jahr 2010 in Deutschland gesammelt. Das entspricht 8,8 Kilogramm pro Einwohner und Jahr. Viele wertvolle Metalle, Legierungen, funktionale Materialien sowie Kunststoffe sind darin enthalten. Wie kann man die Wertstoffe im Sinne einer Kreislaufwirtschaft (Circular Economy) bestmöglich zurückgewinnen, um neue Güter herzustellen? Was leistet Recycling schon heute? Was müsste getan werden, um es weiter zu verbessern? Und wie energetisch sinnvoll ist es überhaupt?
Prof. Markus Reuter, Direktor am Helmholtz-Institut Freiberg für Ressourcentechnologie (HIF) des HZDR, widmet sich diesen Fragen. Der Metallurge und Recyclingexperte beschäftigt sich mit der Wiederverwertbarkeit von Produkten und erforscht innovative, digitale Systeme und Prozesse für optimales Recycling.

Keywords: Kreislaufwirtschaft

  • Lecture (others)
    Möglichkeiten der Kreislaufwirtschaft / Wintersemester der Seniorenakademie, 06.11.2017, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26589
Publ.-Id: 26589


Auto-oscillations in double constriction spin Hall nano-oscillators

Hache, T.; Wagner, K.; Arekapudi, S. S. P. K.; Hellwig, O.; Lindner, J.; Schultheiss, H.

Spin-Hall nano-oscillators (SHNOs) are modern auto-oscillation devices. Their simple geometry allows for an optical characterization by Brillouin-Light-Scattering microscopy at room temperature. Here we report on the observation of auto-oscillations in constriction based SHNOs. These are devices where the current density is increased locally due to lateral confinement. Hence, the spin current generated by the spin Hall effect can create well defined hot-spots for auto-oscillations.
We present BLS measurements of auto-oscillations in Co60Fe20B20(5 nm)/Pt(7 nm) based samples with two interacting, neighbouring nanoconstrictions.
The precession amplitude in these samples can be driven far from equilibrium, resulting in clear nonlinear signatures in the spinwave spectra. The spatial distributions of the observed modes and current dependencies are shown.

Keywords: spin Hall; spin Hall nano-oscillators; Spin-Hall Nanooszillatoren; spin current; auto-oscillations; Autooszillationen

  • Poster
    DPG-Frühjahrstagung SKM, 19.-24.03.2017, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26588
Publ.-Id: 26588


Circular Economy within and beyond manufacturing processes

Reuter, M. A.

This workshop will gather around 30 representatives of business support organisations, including established and prospective providers of resource efficiency advisory and consulting services from European countries and regions in the process of setting up resource efficiency services for small and medium-sized enterprises (SMEs).

  • Invited lecture (Conferences)
    Resource Efficiency in the Manufacturing Industry - Workshop, 24.11.2017, Berlin, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26586
Publ.-Id: 26586


Dual energy CT: Benefits for proton therapy planning and beyond

Richter, C.; Wohlfahrt, P.; Möhler, C.; Greilich, S.

For about a decade, dual-energy CT (DECT) has been clinically available, mainly for radiology applications. In contrast, in the field of radiotherapy DECT has gained relevant interest over the last few years and here clinical use is still far away from being clinical standard. In this lecture benefits of DECT for radiotherapy applications will be discussed.
The focus will be on application for treatment planning in proton therapy, namely the individual prediction of tissue’s stopping power relative to water (SPR) as an alternative to the standard approach using a generic look-up table (HLUT). The manifold information gathered by two CT scans with different X-ray spectra allow for a patient-specific and direct calculation of relative electron density and SPR [1,2]. This enables the consideration of intra- and inter-patient variabilities in CT-based SPR prediction and ultimately a more accurate range prediction. The talk will cover the validation of the SPR prediction accuracy in realistic ground-truth scenarios [3,4], the investigation of clinical relevant differences between the DECT-based and the standard HLUT-based SPR prediction in clinical patient data [5] as well as the status of its clinical implementation [6].
Furthermore, additional applications in radiotherapy, e.g. for photon treatment planning, delineating and material differentiating will be briefly discussed.

  • Invited lecture (Conferences)
    ESTRO 37, 20.-24.04.2018, Barcelona, España
  • Open Access Logo Abstract in refereed journal
    Radiotherapy and Oncology 127(2018), S289-S290
    DOI: 10.1016/S0167-8140(18)30854-5

Permalink: https://www.hzdr.de/publications/Publ-26585
Publ.-Id: 26585


Dual energy CT for range prediction in proton therapy: Validation, clinical benefit & status of implementation

Richter, C.

Overview of DECT project + outlook

  • Invited lecture (Conferences)
    33rd Conference on Clinical and Experimental Research in Radiation Oncology (C.E.R.R.O.), 13.-20.01.2018, Les Menuires, Frankreich

Permalink: https://www.hzdr.de/publications/Publ-26584
Publ.-Id: 26584


Inter-centre variability of CT-based range prediction in particle therapy: Survey-based evaluation

Taasti, V.; Bäumer, C.; Dahlgren, C.; Deisher, A.; Ellerbrock, M.; Free, J.; Gora, J.; Kozera, A.; Lomax, T.; de Marzi, L.; Molinelli, S.; Teo, K.; Wohlfahrt, P.; Petersen, J.; Muren, L.; Hansen, D.; Richter, C.

Purpose: To assess the inter-center variability of the conversion between CT number and particle stopping power ratio (SPR), a survey-based evaluation was carried out in the framework of the European Particle Therapy Network (EPTN). The CT-to-SPR conversion (Hounsfield look-up table, HLUT) is applied to treatment planning CT scans to finally derive the particle range in patients. Currently, CT scan protocols for treatment planning are not standardized regarding image acquisition and reconstruction parameters. Hence, the HLUT depends on the selected scan settings and must be defined by each center individually. Aiming to access the current inter-center differences, this investigation is a first step towards better standardization of CT-based SPR derivation.
Methods: A questionnaire was sent to particle therapy centers involved in the EPTN and two centers in the United States. The questionnaire asked for details on CT scanners, acquisition and reconstruction parameters, the calibration and definition of the HLUT, as well as body-region specific HLUT selection. It was also assessed whether the influence of beam hardening was investigated and if an experimental validation of the HLUT was performed. Furthermore, different future techniques were rated regarding their potential to improve range prediction accuracy.
Results: Twelve centers completed the survey (ten in Europe, two in the US). Scan parameters, in particular reconstruction kernel and beam hardening correction, as well as the HLUT generation showed a large variation between centers. Eight of twelve centers applied a stoichiometric calibration method, three defined the HLUT entirely based on tissue substitutes while one center used a combination of both. All facilities performed a piecewise linear fit to convert CT numbers into SPRs, yet the number of line segments used varied from two to eleven. Nine centers had investigated the influence of beam hardening, and seven of them had evaluated the object size dependence of their HLUT. All except two centers had validated their HLUT experimentally, but the validation schemes varied widely. Most centers acquired CT scans at 120 kVp, all centers individually customized their HLUT, and dual-energy CT was seen as a promising technique to improve SPR calculation.
Conclusions: In general, a large inter-center variability was found in implementation of CT scans, image reconstruction and especially in specification of the CT-to-SPR conversion. A future standardization would reduce time-intensive institution-specific efforts and variations in treatment quality. Due to the interdependency of multiple parameters, no conclusion can be drawn on the derived SPR accuracy and its inter-center variability. As a next step within the EPTN, an inter-center comparison of CT-based SPR prediction accuracy will be performed with a ground-truth phantom.

Keywords: proton therapy; particle therapy; range prediction; stopping-power ratio; Hounsfield look-up-table; inter-center comparison

Permalink: https://www.hzdr.de/publications/Publ-26583
Publ.-Id: 26583


Inherited control of crystal surface reactivity

Fischer, C.; Kurganskaya, I.; Lüttge, A.

Material and environmental sciences have a keen interest in the correct prediction of material release as a result of fluid-solid interaction. For crystalline materials, surface reactivity exerts fundamental control on dissolution reactions; however, it is continuously changing during reactions and governs the dynamics of porosity evolution. Thus, surface area and topography data are required as input parameters in reactive transport models that deal with challenges such as corrosion, CO2 sequestration, and extraction of thermal energy. Consequently, the analysis of surface reaction kinetics and material release is a key to understanding the evolution of dissolution-driven surface roughness and topography. Kinetic Monte Carlo (KMC) methods simulate such dynamic systems. Here we apply these techniques to study the evolution of reaction rates and surface topography in crystalline materials. The model system consists of domains with alternating reactivity, implemented by low vs. high defect densities.
Our results indicate complex and dynamic feedbacks between domains of high versus low defect density, with the latter apparently limiting the overall dissolution rate of the former - a limitation that prevails even after their disappearance. We introduce the concept of “inherited” control, consistent with our observation that maximum dissolution rates in high defect density domains are lower than they would be in the absence of low defect density neighboring domains.
The controlling factor is the spatial pattern of surface accessibility of fluids. Thus, the distribution of large etch pits centers is inherited almost independently of spatial contrasts in crystal defect density during ongoing reactions. As a critical consequence, the prediction of both the material flux from the reacting surface and the evolution of topography patterns in crystalline material is constrained by the reaction history. Important applications include the controlled inhibition of reactivity of crystalline materials as well as the quantitative evaluation and prediction of material failure in corrosive environments.

Keywords: Kinetic Monte Carlo simulation; rate spectra; crystal dissolution; surface reactivity; surface topography and roughness patterns

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Permalink: https://www.hzdr.de/publications/Publ-26582
Publ.-Id: 26582


Pulsating dissolution of crystalline matter

Fischer, C.; Lüttge, A.

Fluid-solid reactions result in material flux from or to the solid surface. The prediction of the flux, its variations and changes with time are of interest to a wide array of disciplines, ranging from the material and earth sciences to pharmaceutical sciences. Reaction rate maps that are derived from sequences of topography maps illustrate the spatial distribution of reaction rates across the crystal surface. Here we present highly spatially-resolved rate maps that reveal the existence of rhythmic pulses of the material flux from the crystal surface. This observation leads to a change in our understanding of the way crystalline matter dissolves. Rhythmic fluctuations of the reactive surface site density and potentially concomitant oscillations in the fluid saturation imply spatial and temporal variability in surface reaction rates. Knowledge of such variability could aid attempts to upscale microscopic rates and predict reactive transport through changing porous media.

Keywords: surface reactivity; kinetics; dissolution; fluid-solid interaction; rate spectra

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Permalink: https://www.hzdr.de/publications/Publ-26581
Publ.-Id: 26581


Vibrational properties of metal phosphorus trichalcogenides from first principles

Hashemi, A.; Komsa, H.-P.; Puska, M.; Krasheninnikov, A. V.

Two-dimensional (2D) sheets of transition metal phosphorus trichalcogenides (TMPTs) offer unique magnetic and optical properties that can complement those found in other 2D materials. Insights into the structure and properties of these materials can be obtained by a juxtaposition of the experimental and calculated Raman spectra, but there is very little theoretical knowledge of the vibrational properties of TMPTs. Using first-principles calculations, we study mechanical and vibrational properties of a large set of monolayer TMPTs. From the phonon dispersion curves, we assess the dynamical stabilities and general trends on the atomic character of the vibrational modes. We determine Raman active modes from group theory, calculate Raman intensities, and analyze them with the help of the corresponding atomic displacements. We evaluate how the mode frequencies shift in response to a biaxial strain. We also determine elastic properties, which show that these systems are softer than many other layered materials. In addition to shedding light on the general features of vibrational properties of these materials, our results should also prove useful for interpreting experimental Raman spectra.

Keywords: 2D materials; transition metal phosphorus trichalcogenides; first-principles calculations; Raman spectra

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Permalink: https://www.hzdr.de/publications/Publ-26580
Publ.-Id: 26580


Revealing the Atomic Defects of WS2 Governing Its Distinct Optical Emissions

Lin, Y.-C.; Li, S.; Komsa, H.-P.; Chang, L.-J.; Krasheninnikov, A. V.; Eda, G.; Suenaga, K.

Defects and their spatial distribution are crucial factors in controlling the electronic and optical properties of semiconductors. By using scanning transmission electron microscopy and electron energy loss spectroscopy, the type of impurities/defects in WS2 subdomains with different optical properties is successfully assigned. A higher population of Cr impurities is found in the W-terminated edge domain, while the S-terminated domain contains more Fe impurities, in accordance with the luminescence characteristics of chemical-vapor-grown WS2 of a hexagonal shape. In agreement with the first-principles calculations, the domains with Cr substitutional dopants exhibit strong trion emission. Fe atoms tend to gather into trimer configuration and introduce deep acceptor levels which compensate the n-type doping and suppress trion emission. It is also discovered that the domain with higher luminescence but smaller defect concentration tends to get oxidized more rapidly and degrade the 2D structure with many triangular holes. Excitons tend to accumulate at the edges of the oxidized triangular holes and results in enhanced PL emission. The findings indicate that choosing stable elements as dopant and controlling the number of specific edge structures within a crystal domain of 2D transitional metal dichalcogenides can be a new route to improve the optical properties of these materials.

Keywords: Defects; 2D materials; transition metal dichalcogenides; transmission electron microscopy; first-principles calculations

Related publications

Permalink: https://www.hzdr.de/publications/Publ-26579
Publ.-Id: 26579


Diode-Pumped High-Energy Laser Amplifiers for Ultrashort Laser Pulses The PENELOPE Laser System

Loeser, M.

The ultrashort chirped pulse amplification (CPA) laser technology opens the path to high intensities of 10²¹ W/cm² and above in the laser focus. Such intensities allow laser-matter interaction in the relativistic intensity regime. Direct diode-pumped ultrashort solid-state lasers combine high-energy, high-power and efficient amplification together, which are the main advantages compared to flashlamp-pumped high-energy laser systems based on titanium-doped sapphire. Development within recent years in the field of laser diodes makes them more and more attractive in terms of total costs, compactness and lifetime.
This work is dedicated to the Petawatt, ENergy-Efficient Laser for Optical Plasma Experiments (PENELOPE) project, a fully and directly diode-pumped laser system under development at the Helmholtz–Zentrum Dresden – Rossendorf (HZDR), aiming at 150 fs long pulses with energies of up to 150 J at repetition rates of up to 1 Hz. The focus of this thesis lies on the spectral and width manipulation of the front-end amplifiers, trivalent ytterbium-doped calcium fluoride (Yb³⁺:CaF₂) as gain material as well as the pump source for the final two main amplifiers of the PENELOPE laser system. Here, all crucial design parameters were investigated and a further successful scaling of the laser system to its target values was shown.
Gain narrowing is the dominant process for spectral bandwidth reduction during the amplification at the high-gain front-end amplifiers. Active or passive spectral gain control filter can be used to counteract this effect. A pulse duration of 121 fs was achieved by using a passive spectral attenuation inside a regenerative amplifier, which corresponds to an improvement by a factor of almost 2 compared to the start of this work. A proof-of-concept experiment showed the capability of the pre-shaping approach. A spectral bandwidth of 20nm was transferred through the first multipass amplifier at a total gain of 300. Finally, the predicted output spectrum calculated by a numerical model of the final amplifier stages was in a good agreement with the experimental results.
The spectroscopic properties of Yb³⁺:CaF₂ matches the constraints for ultrashort laser pulse amplification and direct diode pumping. Pumping close to the zero phonon line at 976nm is preferable compared to 940nm as the pump intensity saturation is significantly lower. A broad gain cross section of up to 50nm is achievable for typical inversion levels. Furthermore, moderate cryogenic temperatures (above 200K) can be used to improve the amplification performance of Yb³⁺:CaF₂. The optical quality of the doped crystals currently available on the market is sufficient to build amplifiers in the hundred joule range.
The designed pump source for the last two amplifiers is based on two side pumping in a double pass configuration. However, this concept requires the necessity of brightness conservation for the installed laser diodes. Therefore, a fully relay imaging setup (4f optical system) along the optical path from the stacks to the gain material including the global beam homogenization was developed in a novel approach.
Beside these major parts the amplifier architecture and relay imaging telescopes as well as temporal intensity contrast (TIC) was investigated. An all reflective concept for the relay imaging amplifiers and telescopes was selected, which results in several advantages especially an achromatic behavior and low B-Integral. The TIC of the front-end was improved, as the pre- and postpulses due to the plane-parallel active-mirror was eliminated by wedging the gain medium.

Keywords: laser; CPA; diode-pumped; PENELOPE; high-intensity laser; ultrashort pulse laser

  • Doctoral thesis
    HZDR, TU Dresden, 2017
  • Open Access Logo Wissenschaftlich-Technische Berichte / Helmholtz-Zentrum Dresden-Rossendorf; HZDR-083 2018
    ISSN: 2191-8708, eISSN: 2191-8716

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Permalink: https://www.hzdr.de/publications/Publ-26578
Publ.-Id: 26578


Shedding light on LWFA plasma dynamics - in-situ radiation diagnostics in PIConGPU

Pausch, R.; Debus, A.; Garten, M.; Huebl, A.; Schramm, U.; Steiniger, K.; Widera, R.; Bussmann, M.

We present recent results from the in-situ radiation diagnostics available in the particle-in-cell code PIConGPU and illustrate its power to provide insight into LWFA experiments when linked to experimental measurements.

PIConGPU is currently one of the fastest 3D3V PIC codes. Its speed allows including an in-situ radiation diagnostic based on Liénard-Wiechert potentials. This synthetic diagnostic is capable of computing the spectrally resolved far field radiation of billions of macro-particles for numerous observation directions. It allows resolving the intensity and polarization of the emitted radiation both temporally and spatially for frequencies extending from infrared to x-rays. Its use of form-factors and its capability of phase tracking each individual macro-particle enable quantitative predictions in both the coherent and incoherent regime. Applications for this synthetic radiation diagnostics have already been demonstrated in astrophysical simulations to identify and quantify the Kelvin-Helmholtz instability.

After a brief introduction of the techniques for computing the radiation in-situ, we focus on the characteristic radiation of LWFA, which allows identifying the various stages of the laser-plasma dynamics. We demonstrate the correlation between emitted radiation and particle dynamics and discuss application of these signatures in laboratory experiments

Keywords: radiation; PIConGPU; in-situ; LWFA; spectra

  • Lecture (Conference)
    3rd European Advanced Accelerator Concepts Workshop, 24.-29.09.2017, La Biodola, Isola d'Elba, Italien

Permalink: https://www.hzdr.de/publications/Publ-26577
Publ.-Id: 26577


Platinum-Group Elements and Minerals in the Lower and Middle Group Chromitites of the Bushveld Complex, South Africa

Junge, M.; Oberthür, T.; Osbahr, I.

The 2,050 Ma old Bushveld Complex in South Africa is the largest layered mafic-ultramafic intrusion on Earth and contains the largest resources of platinum-group elements (PGE) as well as economically important reserves of chromium and vanadium. The correlation between chromite and PGE is remarkably well expressed as even the thinnest chromitite stringers in the Bushveld Complex contain elevated concentrations of PGE. The UG-2 chromitite has been investigated in great detail, however, studies on the distribution of PGE and the mineralogical character of the PGM in the LG and MG chromitites are scarce and the knowledge of the distribution and the mineralogical siting of the PGE in the chromitite seams of the Lower Group (LG) and Middle Group (MG) of the Bushveld Complex is limited.
In the present study, concentrates from the LG-6 and MG-2 chromitites of the Bushveld Complex are studied to determine the distribution of the PGE and the nature of the platinum-group mineral (PGM) in these chromitite seams. Quantitative mineralogical analysis using the Mineral Liberation Analyser (MLA) software was carried out in order to determine the PGM proportions in these concentrates. The dominant PGM are sulfides, namely cooperite-braggite, malanite-cuprorhodosite, and laurite, followed by PGE-sulfarsenides, sperrylite, and Pt-Fe alloys. The additional information of PGM area percentages compared to frequency data obtained by the MLA data, show that in LG and MG chromitites of the western Bushveld Complex laurite grains make up the largest area amount of PGM. The matching sets of PGM present in the LG and MG chromitites of both the western and the eastern Bushveld Complex, and the UG-2 chromitite show far-reaching similarities which support the indication of a characteristic, general chromitite-related PGM assemblage. These PGM in the LG and MHR are mostly associated with silicates (54 and 60% in the LG-6 and MG-2, respectively), followed by sulfides (32 and 37% in the MG-2 and LG-6, respectively). Rarer associations are with chromite (2%) or other PGM (5 to 7%). Palladium and Rh contents in sulfides (mainly pentlandite) may range up to thousands of ppm in ores associated with mafic-ultramafic intrusions. Palladium and Rh contents in pentlandite of the LG and MG chromitites of this study are low and erratic although maximum contents of 7731 ppm Pd and 6023 ppm Rh were detected. Rare thiospinels of the polydymite-linnaeite-greigite series achieve PGE contents of 1428 ppm Pt, 5370 ppm Rh and 1460 ppm Pd.

Keywords: Bushveld Complex; platinum-group-minerals; chromitites

  • Contribution to proceedings
    EMC 2016, 11.-15.09.2016, Rimini, Italy

Permalink: https://www.hzdr.de/publications/Publ-26576
Publ.-Id: 26576


Elektrostatische Kontrolle des Stofftransports in mikro- und nanoskaligen Elektrolytsystemen

Kubeil, C.

Viele Produktions- und Analyseverfahren profitieren zunehmend von neuesten nanotechnologischen Entwicklungen zur Erweiterung bzw. Optimierung des jeweiligen Anwendungsgebietes. Häufig sind die systemtypischen Eigenschaften jedoch nur unvollständig verstanden, da sie verstärkt durch Oberflächeneigenschaften und Größenquantifizierungseffekte dominiert werden. Auch in der Elektrochemie und Galvanotechnik besteht großes Interesse die notwendigen und grundlegenden Erkenntnisse über Mikro- und Nanosysteme zu gewinnen und entsprechend für eine Anwendung nutzbringend bereitzustellen.
Insbesondere in nanoskaligen Elektrolytsystemen, z. B. an porösen Oberflächen, in Membranen oder bei der Kompositabscheidung, spielt die elektrochemische Doppelschicht an geladenen Oberflächen eine entscheidende Rolle. Aufgrund der begrenzten Ausdehnung des
Elektrolyten wird die Ionenverteilung maßgeblich durch die Oberflächenladung bestimmt. Dies hat unmittelbar Auswirkungen auf den ionischen und molekularen Stofftransport und somit auch auf die Potential- und Stromdichteverteilung. Für die galvanische Abscheidung von Metallen in solch kleinen Bereichen bedeutet dies, dass die elektrische Ladungsdichte der Matrix an kritischem Einfluss gewinnt: Je nach Vorzeichen kann sie eine inhibierende oder verstärkende Wirkung auf den Transport der Metallionen ausüben.
Der Vortrag zeigt anhand numerischer Simulationen und ausgewählten Experimenten, welche Doppelschicht-Effekte in nanoskaligen System auftreten und wie sich diese gezielt nutzen lassen, um beispielsweise galvanisch abgeschiedene Strukturen vorteilhaft zu beeinflussen.

Keywords: Nanoporen; elektrochemische Doppelschicht; Elektrolyt; Galvanotechnik; Metallabscheidung

  • Lecture (Conference)
    ZVO Oberflächentage 2017, 13.-15.09.2017, Berlin, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26575
Publ.-Id: 26575


Effizienzsteigerung von Kläranlagen - Vorstellung von Mess- und Simulationstechnischen Methoden

Reinecke, S. F.; Höffmann, A. K.; Stachowske, M.; Hampel, U.; Ehrhard, P.

Für den Großteil der in Deutschland betriebenen Kläranlagen übersteigt die aufgewendete Energie zur Durchmischung und Belüftung des Abwassers oftmals den tatsächlich notwendigen Energiebedarf. Zwischen 50% und 80% des Gesamtenergiebedarfs einer Kläranlage fällt auf die Belüftung des Belebungsbeckens (Fricke, 2009; Haberkern et al., 2008). Unabhängig von der Ausbaugröße der Kläranlage ist dementsprechend dort das mit Abstand größte Energieeinsparpotenzial zu finden. Dies wird oft durch eine nicht-optimale Auslegung bzw. Anordnung der Begasungs- und Dispergierorgane im Belebtschlammbecken hervorgerufen.
Ziel dieses Vorhabens ist die Entwicklung einer Methodik, mit welcher basierend auf numerischen Simulationen die Optimierungspotenziale der jeweiligen Anlage aufgedeckt werden, optimierte Anlagenkonfigurationen und Betriebsweisen bestimmt bzw. bewertet werden. Dies entspricht einer virtuellen Anlagenoptimierung durch numerische Experimente. Weiterhin werden die Maßnahmen nach ihrer Umsetzung der an der konkreten Anlage mit Hilfe innovativer Sensorik messtechnisch validiert.
Damit soll eine grundlegende Verbesserung der Hydrodynamik und des Stofftransportes in Belebungsbecken in Verbindung mit der Effizienzsteigerung der Anlage basierend auf numerischen Simulationen und innovativen Sensortechnologien möglich werden.

  • Open Access Logo GIT Labor-Fachzeitschrift 62(2018)4, 53-56

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Permalink: https://www.hzdr.de/publications/Publ-26574
Publ.-Id: 26574


Severe Accident Management Measures for a Generic German PWR. Part II: Small-break loss-of-coolant accident

Jobst, M.; Wilhelm, P.; Kozmenkov, Y.; Kliem, S.

This series of two papers focuses on the analysis of severe accident management measures for a generic German PWR of type Konvoi. A nuclear power plant model based on the severe accident code ATHLET-CD was developed in order to assess the code applicability for simulation of accident scenarios with core degradation. It was applied for investigation of two main groups of accident scenarios: station blackout and small-break loss-of-coolant accidents.
Part I presented the analyses of a station blackout accident. Part II is focused on the analysis of the plant response in case of a hypothetical small-break loss-of-coolant accident (SBLOCA with 50 cm² leak in cold leg of pressurizer loop). Due to failure of components of the emergency core cooling system and assumed unavailability of several preventive and mitigative accident management measures (AMM), the accident develops into a severe accident scenario with core melt and reactor pressure vessel failure. An alternative AMM, which is not implemented in German PWRs, is investigated in the current paper: late coolant injection to the primary circuit with a mobile equipment (bleed and feed with low pressure pump). The analysis is performed on the basis of ATHLET-CD simulations (code version Mod 3.0 Cycle A). Two injection points are investigated: injection to cold leg and injection to hot leg. As in SBLOCA scenarios the primary pressure might remain high that injection by low pressure systems is not effective, the influence of additional primary side depressurization (PSD) is investigated.
The simulations show, that mobile pump injection significantly reduces the amount of the released fission products and hydrogen, if it is started within 75 min after the core exit temperature (CET) exceeded 400 °C. Without PSD, melting of the fuel can be prevented if the mobile pump is started immediately when CET > 650 °C, but release of fission products can only be prevented if early pump injection is combined with PSD. Cases with a delay of mobile pump injection in combination with a delay of PSD (e.g. due to temporary malfunction) are also investigated: until 50 min after CET > 400 °C a lower release of fission products and longer grace times to prevent melt relocation to the lower head are observed (compared to immediate PSD at CET > 400 °C).

Keywords: Severe accident analysis; SBLOCA; PWR; Accident management measures

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Permalink: https://www.hzdr.de/publications/Publ-26573
Publ.-Id: 26573


Magnetic properties of Co/Ni multilayer structures for use in STT-RAM

Arora, M.; Lee-Hone, N. R.; Mckinnon, T.; Coutts, C.; Hübner, R.; Heinrich, B.; Broun, D. M.; Girt, E.

Magnetic properties of (111)-textured SAF/Cu/FL multilayer film structures have been optimized by varying individual layer thickness and sputtering conditions. The SAF is a synthetic antiferromagnet consisting of Co/Ni multilayers coupled antiferromagnetically across a Ru spacer layer, and the FL is a free layer consisting of a single Co/Ni multilayer. The Co thickness was varied from 0.16 nm to 0.26 nm and the Ni thickness from 0.47 nm to 0.57 nm at two different deposition rates to obtain a perpendicular magnetic anisotropy of the 8 × [Co/Ni] multilayers ranging from 4×105 to 4.6×105 Jm-3. The perpendicular magnetic anisotropy, saturation magnetization, damping and zero-frequency line broadening of the Co/Ni multilayers strongly depend on the number of bilayers, N1, for N1 <10. With increasing Cu seed-layer thickness, the texture of the Co/Ni multilayers improves while the grain size and film roughness increase. The increase in grain size results in the reduction of the direct exchange coupling between magnetic grains, which enhances the coercivity of the SAF and the FL. Experimentally measured coercivities of the SAF and FL are compared with calculations obtained from a coherent rotation model. The effect of the Co/Ru interface in the SAF on the exchange coupling, and the role of the Co/Cu interface in the magnetoresistance, is also discussed. This study provides an important step towards the realization of STT-RAM devices consisting of only Co/Ni multilayers.

Keywords: magnetic multilayers; perpendicular magnetic anisotropy; giant magneto-resistance; spin transfer torque; magnetic properties

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Permalink: https://www.hzdr.de/publications/Publ-26572
Publ.-Id: 26572


Study of Defects in High Energy Ion Implanted ZnO Crystals

Melikhova, O.; Čížek, J.; Procházka, I.; Hruška, P.; Anwand, W.; Havránek, V.; Skuratov, V. A.; Strukova, T. S.

Positron annihilation spectroscopy (PAS) was employed for characterization of defects in the hydrothermally (HT) grown zinc oxide single crystals irradiated by high energy ions. Defects created in ZnO crystals by 2.5 MeV protons, 7.5 MeV N3+ and 167 MeV Xe26+ ions were compared. The virgin ZnO crystals contain Zn-vacancies associated with hydrogen. Ion implantation introduced additional defects, namely Zn+O di-vacancies in crystals irradiated by protons and small vacancy clusters in samples implanted by N and Xe ions.

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Permalink: https://www.hzdr.de/publications/Publ-26571
Publ.-Id: 26571


"SE-FLECX"-Project: Development of new extractants for Rare Earths

Balinski, A.; Bauer, A.; Schmeide, K.; Mansel, A.; Jäschke, A.; Glasneck, F.; Kersting, B.; Krause, J.; Atanasova, P.; Scharf, C.

The extraction of rare earth elements (REEs) from ores with simple mineralogy has been largely optimized over the past years. However, because of the dwindling of ore, which are easy to concentrate, it is necessary to develop new processes which are more effective and transferable to the ores with complex mineralogy. The SE-FLECX-Project, which is coordinated at the Helmholtz Institute Freiberg in Germany, is dealing with the extraction process. To determine an optimal leaching method and to provide leach solutions for the extraction experiments two ores are processed in different ways. The main focus is to develop new extractants based on calix[4]arene molecules for separation of radioactive elements and single REEs, for example uranium.

Keywords: Calix[4]arene; extraction of rare earth elements and uranium; ore processing

  • Lecture (Conference)
    The 21st International Solvent Extraction Conference, 05.-09.11.2017, Miyazaki, Japan

Permalink: https://www.hzdr.de/publications/Publ-26570
Publ.-Id: 26570


Platinum-group elements and platinum-group minerals in the weathered chromitities of the Lower and Middle Group chromitites of the Bushveld Complex

Junge, M.; Bachmann, K.; Kotzé, E.; Oeser-Rabe, M.

The mineralization of economically important platinum group elements (PGE) mainly occurs in mafic-ultramafic intrusions such as the Bushveld Complex. PGE are currently mined from the Merensky Reef, the Platreef and the UG-2 chromitite, which is the only chromitite layer mined for PGE, however, the Lower Group (LG) and Middle Group (MG) chromitites also contain significant PGE concentrations ranging from 0.5 to 9 g/t. In the pristine ores, PGE occur both as discrete platinum-group minerals (PGM) and included within sulfides. Previous studies showed that in the LG-6 and MG-1/2, PGE-sulfides (cooperite-braggite, malanite, laurite) are the dominant PGM, followed by PGE-sulfarsenides, sperrylite and Pt-Fe alloys. The rocks in the Bushveld Complex are strongly weathered down to 10 to 40 m below the surface. Near-surface chromitite seams of the LG and MG of the western Bushveld Complex at the Thaba Mine are studied by electron microprobe and LA-ICP-MS for the distribution of PGE. The analytical conditions employed for silicates were: 20 kV acceleration voltage, 120 nA beam current, focused beam, and up to 360 s measuring time. LA-ICP-MS measurements were carried out on a ThermoScientific Element XR (HR-ICP-MS) coupled with a femtosecond laser ablation system. During weathering, sulfides and PGM are largely destroyed and PGE are mobilized and redistributed in the near-surface ores. Within the near-surface weathered chromitite seams, only relict PGM can be observed, which are observed within silicates or as inclusions in chromite. Former grains of PGM are observed in secondary silicates showing larger shapes but are locally redistributed along small cracks and Pt-Fe-(oxides) are observed as well, arguing for the neoformation of PGM. Secondary silicate minerals in weathered ores show concentrations of Pt and Pd in the 100s-ppm range. A good correlation can be observed with Ni and Pd, arguing for the weathering of pentlandite, which hosts Pd in the pristine PGE ore. Palladium and Ni partly remained and were incorporated into secondary silicates while S is largely lost.

  • Contribution to proceedings
    GeoBremen 2017, 24.-29.09.2017, Bremen, Deutschland
    Proceedings of the GeoBremen 2017

Permalink: https://www.hzdr.de/publications/Publ-26569
Publ.-Id: 26569


Hydrothermal formation of HREE-xenotime deposits at 100 °C in a sedimentary basin

Richter, L.; Diamond, L. W.; Atanasova, P.; Banks, D. A.; Gutzmer, J.

Most rare-earth element deposits form from magmatic fluids but there have also been discoveries of heavy rare-earth element (HREE)-enriched hydrothermal xenotime deposits within sedimentary basins. As xenotime is notoriously insoluble, the question arises as to whether these lesser known deposits form at typical basin temperatures or by influx of much hotter magmatic-hydrothermal fluids. The Browns Range District in northern Australia hosts deposits of xenotime that is enriched in HREE and also uranium. The ore bodies consist of fault-controlled hydrothermal quartz–xenotime breccias that crosscut Archean basement rocks and overlying Paleoproterozoic sandstones. Analyses of fluid inclusions show that the xenotime precipitated at remarkably low temperatures between 100 and 120 °C, in response to decompression boiling. The inclusions contain high excess REE concentrations (10−6 to 10−5 molal) and high U concentrations (5 × 10−5 molal) in equilibrium with xenotime at these low temperatures, showing that availability of phosphate limited the amount of xenotime precipitated. The analyses further identify SO42– and Cl- as the ligands that facilitated the elevated REE and U solubilities. These findings establish that significant REE transport and deposition is feasible at basin temperatures and hence they raise the potential of unconformity settings for REE exploration. Moreover, the aqueous metal contents support a genetic link between this type of ore fluid and world-class Proterozoic unconformity-related uranium deposits elsewhere.

Permalink: https://www.hzdr.de/publications/Publ-26568
Publ.-Id: 26568


Platinum-group element and minerals in the Lower and Middle Group chromitites of the western Bushveld Complex, South Africa

Junge, M.; Oberthür, T.; Osbahr, I.; Gutter, P.

The chromitites of the Bushveld Complex in South Africa contain vast resources of platinum-group elements (PGE). However, knowledge of the distribution and the mineralogical siting of the PGE in the lower group (LG) and middle group (MG) chromitite seams of the Bushveld Complex is limited. We studied concentrates from the LG-6 and MG-2 chromitites of the western Bushveld Complex by a variety of microanalytical techniques. The dominant PGM are sulfides, namely laurite, cooperite-braggite, and malanite-cuprorhodsite, followed by PGE-sulfarsenides, sperrylite, and Pt-Fe alloys. Laurite is the most abundant PGM (vol%). The matching sets of PGM present in the LG and MG chromitites of both the western and the eastern Bushveld Complex, and in the UG-2 chromitite, show strong similarities which support the assumption of a characteristic and general chromitite-related PGM assemblage. Palladium and Rh contents in pentlandite are low and erratic although maximum contents of 7730 ppm Pd and 6020 ppm Rh were detected. Rare thiospinels of the polydymite-linnaeite-greigite series have PGE contents of 1430 ppm Pt, 5370 ppm Rh, and 1460 ppm Pd. The various PGE occur in different deportment: Platinum is generally present in the form of discrete PGM (sulfides, arsenides, alloys). Palladium is present as a large variety of discrete PGM and also incorporated in pentlandite. Rhodium forms discrete PGM and is occasionally present in pentlandite. The IPGE (Os, Ir, and Ru) are dominantly incorporated in laurite (often as inclusions in chromite) and also occur as sulfarsenides.

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Permalink: https://www.hzdr.de/publications/Publ-26567
Publ.-Id: 26567


Cryogenic jet targets for high power laser experiments

Rehwald, M.; Göde, S.; Obst, L.; Zeil, K.; Metzkes-Ng, J.; Schlenvoigt, H.; Kraft, S. D.; Brack, F.; Wolter, S.; Kazak, L.; Gauthier, M.; Roedel, C.; Kluge, T.; Fiuza, F.; Mishra, R.; Ruyer, C.; Sommer, P.; Loeser, M.; Ziegler, T.; Curry, C.; Macdonald, M.; Schumaker, W.; Glenzer, S.; Cowan, T.; Schramm, U.

We present a pure condensed hydrogen jet as a renewable and debris-free target for high power laser experiments. The jet's nominal electron density is approximately 30 times the critical density and its diameter can be varied to be 2µm, 5µm or 10µm and thus allowing to study the regime of relativistic transparency. Different ion diagnostics reveal mono-species proton acceleration in the laser incidence plane around the wire-like target. Radiochromic film stacks in forward direction display signatures of filament-like structures, stemming from a Weibel-like instability generated at the rear side of the target in the underdense plasma region.

  • Lecture (Conference)
    MoU HZDR-ILE and HZDR-KPSI, 07.-08.12.2017, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26566
Publ.-Id: 26566


Using optical probing to study laser-proton acceleration from a condensed hydrogen jet

Rehwald, M.; Goede, S.; Obst, L.; Zeil, K.; Metzkes, J.; Schlenvoigt, H.; Kraft, S. D.; Brack, F.; Wolter, S.; Kazak, L.; Gauthier, M.; Roedel, C.; Kluge, T.; Fiuza, F.; Mishra, R.; Ruyer, C.; Sommer, P.; Loeser, M.; Ziegler, T.; Curry, C.; Macdonald, M.; Schumaker, W.; Glenzer, S.; Cowan, T.; Schramm, U.

The presentation will give an overview of the recent experiments for laser driven proton acceleration with high contrast at the high power laser system Draco at HZDR. We present results of an experimental campaign employing a pure condensed hydrogen jet as a renewable and debris free target.
Different ion diagnostics reveal mono-species proton acceleration in the laser incidence plane around the wire-like target, reaching cut-off energies of up to 20 MeV and exceeding 109 protons per MeV per steradian. Evaluation of two different target geometries (cylindrical with a diameter of 2µm, 5µm or 10µm and planar with 2x20 µm²) demonstrating more optimized acceleration conditions from the planar hydrogen jet.
We report on modulations of laser accelerated protons by strong filamentary electromagnetic fields. Such modulations are related to the appearance of electron Weibel instability in the preplasma at the rear side of the target and impose important constraints on the preplasma level for high-quality proton acceleration [1].
Furthermore we present the usage of optical probing to study the laser plasma interaction providing plasma density measurements at the time of the interaction and to precisely determine the jet position. Recorded probe images taken up to 100 ps after the laser pulse arrived at the target, indicating plasma density modulations from pinching effects along the jet axis.

  • Lecture (Conference)
    Laser Plasma Accelerator Workshop 2017, 27.08.-01.09.2017, Jeju island, Korea
  • Lecture (Conference)
    SPIE – Laser Acceleration of Electrons, Protons, and Ions, 24.-27.04.2017, Prag, Tschechien

Permalink: https://www.hzdr.de/publications/Publ-26565
Publ.-Id: 26565


Investigation of pinching effects in intense laser plasma interactions

Rehwald, M.; Zeil, K.; Obst, L.; Goede, S.; Metzkes, J.; Schlenvoigt, H.; Kraft, S. D.; Brack, F.; Wolter, S.; Kazak, L.; Gauthier, M.; Roedel, C.; Kluge, T.; Fiuza, F.; Mishra, R.; Ruyer, C.; Sommer, P.; Loeser, M.; Ziegler, T.; Curry, C.; Macdonald, M.; Schumaker, W.; Glenzer, S.; Cowan, T.; Schramm, U.

Developments in the field of laser plasma accelerators have been pushed by applications like radiation therapy in the past years. The acceleration of particle to higher energies is one of the key questions for such applications. Probing methods offer the capability for investigating the laser target interaction and thus allow for studying the acceleration process. In this talk results obtained by optical probing in recent experiments for laser driven proton acceleration with high contrast at the high power laser Draco at HZDR are presented. Draco delivers pulses of 30 fs and 5 J at 800 nm, focused to a 3 µm spot by a F/2.5 off-axis parabolic mirror. We present results of an experimental campaign using a cryogenic hydrogen jet as a renewable debris free target.
The hydrogen jet’s nominal electron density is approximately 30 times the critical density for 800 nm and its shape and size can be varied. For instance cylindrical geometries with diameters of 2µm, 5µm or 10µm were used. The laser plasma interaction could be monitored on-shot with two temporally synchronized optical probe beams perpendicular and longitudinal to the Draco laser axis. Recorded probe images taken up to 100 ps after the laser pulse arrived at the target indicate plasma density modulations from pinching effects along the jet axis. A possible driver for those density modulations is a strong surface current which has been studied with 2D-PIC simulations. Such density modulations may modify the shape of the electron sheath and thereby alter the beam profile of the laser accelerated protons.

Keywords: MHD instabilities; laser plasma interaction

  • Poster
    European Physical Society Conference June 2017, 26.-30.06.2017, Belfast, Vereinigtes Königreich

Permalink: https://www.hzdr.de/publications/Publ-26564
Publ.-Id: 26564


Flow Regime Transitions in a Bubble Column with Internals Based On a Novel Approach

Nedeltchev, S.; Möller, F.; Hampel, U.; Schubert, M.

In this work the main flow regime boundaries in a bubble column with internals were investigated based on a novel statistical-chaotic method. The latter was applied to gas holdup fluctuations recorded by means of a wire-mesh sensor (8 x 8 wires). The bubble column (0.1 m in ID) was operated with an air-deionized water system at ambient conditions. 37 vertical tubes (arranged in a square pitch with a diameter of 8 x 10-3 m) were installed as internals. Based on an original combination of statistical and chaotic parameters was found that in the core of the bubble column with internals, the first transition velocity Utrans-1 (end of homogeneous regime) occurred at superficial gas velocity UG of 0.06 m/s, whereas the second transition velocity Utrans-2 (end of heterogeneous regime) appeared at UG = 0.13 m/s. At these critical velocities the new parameters exhibited well pronounced minima. In the core of the column the existence of transition flow regime was not identified. In the annulus of the bubble column with internals, three transition velocities (at UG = 0.03, 0.06 and 0.10 m/s) were identified. The first transition velocity identified the end of the gas maldistribution regime. The second and third critical velocities distinguished the ends of the homogeneous and heterogeneous regimes, respectively. The processing of the gas holdup data in the entire cross-section of the column revealed that the Utrans-1 and Utrans-2 values occurred at somewhat lower UG values (0.05 and 0.08 m/s). These critical gas velocities identified both the lower and upper boundaries of the transition regime.

Keywords: Bubble Column; Internals; New Statistical-Chaotic Method; Flow Regime Identification; Wire-Mesh Sensor

Permalink: https://www.hzdr.de/publications/Publ-26563
Publ.-Id: 26563


Laser-proton acceleration from a condensed hydrogen jet

Rehwald, M.; Zeil, K.; Obst, L.; Metzkes, J.; Schlenvoigt, H.; Goede, S.; Kraft, S. D.; Brack, F.; Wolter, S.; Kazak, L.; Gauthier, M.; Roedel, C.; Kluge, T.; Fiuza, F.; Mishra, R.; Ruyer, C.; Sommer, P.; Loeser, M.; Ziegler, T.; Curry, C.; Macdonald, M.; Schumaker, W.; Glenzer, S.; Cowan, T.; Schramm, U.

Applications like radiation therapy of cancer have pushed the development of laser plasma accelerators and defined levels of control and necessary particle beam stability in laser plasma experiments. The poster will give an overview of a recent experiment for laser driven particle acceleration with high contrast at the high power laser Draco at HZDR, delivering pulses of 30fs and 5J. We present results of an experimental campaign employing a cryogenic hydrogen jet as a renewable target. The jet's nominal plasma density is approximately 30 times the critical density and its diameter can be varied to be 2µm, 5µm or 10µm and thus allowing to study the regime of relativistic transparency. In addition a planar aperture was commissioned, providing a different geometry of the hydrogen jet. Different ion diagnostics reveal mono-species proton acceleration in the laser incidence plane around the wire-like target. Radiochromic film stacks in laser forward direction display filament-like structures, stemming from a Weibel-like instability generated at the rear side of the target. Furthermore the micro-jet target could be monitored on-shot with a temporally synchronized optical probe beam perpendicular and almost parallel to the pump laser axis. Recorded probe images taken on a timescale of several 10’s of picoseconds indicating plasma density modulations from pinching effects along the jet axis.

Keywords: laser particle acceleration; optical probing; plasma instabilities

  • Poster
    3. Annual MT Meeting, 31.01.-02.02.2017, GSI Darmstadt, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26562
Publ.-Id: 26562


PENELOPE main amplifier performance and development status

Albach, D.; Loeser, M.; Siebold, M.; Bernert, C.; Schramm, U.

We present an update on the development of the PENELOPE laser system currently under construction at the Helmholtz-Zentrum Dresden-Rossendorf, Germany. Pulses from an oscillator are stretched to the nanosecond scale before several amplification stages will boost the energy up to the 150 J level after compression. About 150 fs are foreseen at repetition rates of up to 1 Hz, ultimately yielding a peak power of 1 PW.
Current development focusses on the energetic performance of the last two main amplifier stages, especially the second to last amplifier. We will present the performance at the 10 J level, while simulating both amplifiers by double-passing the 12-pass setup. A small signal gain of more than 900 was achieved with these 24 passes using 4 Yb3+:CaF2 gain medium disks being pumped at up to 120 kW within 4 ms. Single-shot operation at room temperature is shown with a thorough discussion of the impact of temperature on the future operation below room temperature.

Keywords: PENELOPE; laser; diode-pumping; petawatt; ytterbium; CaF2

  • Lecture (Conference)
    The 10th International Workshop of High Energy Class Diode Pumped Solid State Lasers (HEC-DPSSL), 23.-26.05.2017, Noboribetsu, Japan

Permalink: https://www.hzdr.de/publications/Publ-26561
Publ.-Id: 26561


PENELOPE – amplifier benchmarks and 10 J performance

Albach, D.; Siebold, M.; Loeser, M.; Schramm, U.

We present the status of the PENELOPE laser system currently under construction at the Helmholtz-Zentrum Dresden-Rossendorf. We show the first energetic activation of the second to last major amplification stage boosting available energies to the 10 Joule-level, while benchmarking the performance of the whole last two amplifier sections. The expected small-signal gain at the full bandwidth of 20 nm was cross-checked with the front-end amplifier at 100 mJ.

Keywords: PENELOPE; Laser; Ytterbium; diode-pumping; CaF2

  • Invited lecture (Conferences)
    The 6th Advanced Lasers and Photon Sources (ALPS’17), 18.-21.04.2017, Yokohama, Japan

Permalink: https://www.hzdr.de/publications/Publ-26560
Publ.-Id: 26560


Recovery of Copper through Bioleaching from Copperslags in Kazakhstan

Kutschke, S.; Möckel, R.; Dirlich, S.; Pollmann, K.

Kazakhstan is one of the large copper producers world wide. Copper is mostly produced by pyrometallurgy and copper slags deposited on site at steppe. The slag contains high amounts of valuable metals, e.g. zinc, iron, and silver. Material samples from a heap near Ust Kamenogorsk were analyzed with chemical and mineralogical methods. Some minerals detected are ferrosilite, andradite, chalcopyrite, charmosite, and tetrahedrite. The material was leached with A. ferroxidans, A. thiooxidans, Y. lipolytica, B. licheniformis and the fungus Kombucha. Copper is leached by B. licheniformis, iron and silver by Kombucha. Leaching success was detected using biochemical chelators. However, these results are based only on the very first experiments with the sample material.

Keywords: Bioleaching; copperslags

  • Lecture (Conference)
    5th International Symposium on Sustainable Minerals, 14.-15.06.2018, Windhoek, Namibia

Permalink: https://www.hzdr.de/publications/Publ-26559
Publ.-Id: 26559


New biodegradable leaching agents for recovery of rare earth elements (REE) from ion adsorption clay deposit (IAC) in north west Madagascar

Kutschke, S.; Möckel, R.; Bachman, S.; Pollmann, K.

IAC’s are the world's main source of heavy rare earth elements. In situ leaching is the most common extraction technology for REE from IAC's but it is responsible for tremendous environmental damages. New biodegradable leaching agents were tested to extract REEs from an IAC from Madagascar. They are culture broths of S. urea, Y. lipolytica, and B. licheniformis. The culture broth of Y. lipolytica, containing tricarboxylic acids, revealed a generally low recovery except for Gd. Pr and Dy were selectively leached by the broth of S. urea. The highest recovery of REE was achieved by the B. licheniformis culture.

Keywords: Bioleaching; Rare Earth Elements

  • Lecture (Conference)
    9th International Symposium on Biohydrometallurgy, 11.-13.06.2018, Windhoek, Namibia

Permalink: https://www.hzdr.de/publications/Publ-26558
Publ.-Id: 26558


Interaction of Discoidin Domain Receptor 1 with a 14-3-3-Beclin-1-Akt1 Complex Modulates Glioblastoma Therapy Sensitivity

Vehlow, A.; Klapproth, E.; Jin, S.; Hannen, R.; Hauswald, M.; Bartsch, J.-W.; Nimsky, C.; Temme, A.; Leitinger, B.; Cordes, N.

Glioblastoma (GBM) is highly refractory to therapy and associated with poor clinical outcome. Here, we reveal a critical function of the promitotic and adhesion-mediating discoidin domain receptor 1 (DDR1) in modulating GBM therapy resistance. In GBM cultures and clinical samples, we show a DDR1 and GBM stem cell marker co-expression that correlates with patient outcome. We demonstrate that inhibition of DDR1 in combination with radiochemotherapy with temozolomide in GBM models enhances sensitivity and prolongs survival superior to conventional therapy. We identify a 14-3-3-Beclin-1-Akt1 protein complex assembling with DDR1 to be required for prosurvival Akt and mTOR signaling and regulation of autophagy-associated therapy sensitivity. Our results uncover a mechanism driven by DDR1 that controls GBM therapy resistance and provide a rationale target for the development of therapy-sensitizing agents.

Keywords: DDR1; autophagy; radiochemoresistance; GBM stem-like cells; orthotopic GBM mouse model

Permalink: https://www.hzdr.de/publications/Publ-26557
Publ.-Id: 26557


Local structural analyses of the mixed uranium-zirconium oxides in fuel debris simulated for the Fukushima Daiichi NPP accident

Uehara, A.; Akiyama, D.; Numako, C.; Takeda, S.; Ikeda-Ohno, A.; Terada, Y.; Nitta, K.; Ina, T.; Kirishima, A.; Sato, N.

A series of the mixed uranium-zirconium oxides was prepared at high temperature to simulate the nuclear fuel debris remaining in the nuclear reactor(s) of Fukushima Daiichi Nuclear Power Plant (FDNPP), Japan. The prepared samples were comprehensively characterised by powder X-ray diffraction and X-ray absorption spectroscopy, indicating that the major phases formed are UO2, U3O8 and ZrO2 with an additional formation of mixed U-Ze oxide phases.

Keywords: Nuclear fuel debris; FDNPP; uranium; zirconium; oxide; solid solution; powder X-ray diffraction; X-ray absorption spectroscopy; speciation; characterisation

  • Lecture (Conference)
    Annual Meeting of the Atomic Energy Society of Japan, 26.-28.03.2018, Osaka University, Japan

Permalink: https://www.hzdr.de/publications/Publ-26553
Publ.-Id: 26553


A Study on the Influence of the Tube Layout on Sub-channel Hydrodynamics in a Bubble Column with Internals

Möller, F.; Lau, Y. M.; Seiler, T.; Hampel, U.; Schubert, M.

In this work, the hydrodynamics of a bubble column with vertical heat exchanger internals in a narrow bubble column of D_i = 0.1 m inner diameter with a clear liquid height of L_c = 1.1 m was comprehensively studied. We applied ultrafast X-ray tomography to obtain hydrodynamic parameters, such as, gas holdup, bubble size distribution, bubble number flux and flow patterns at hitherto inaccessible positions within the sub-channels of the tube bundles. To investigate the influence of the tube bundle patterns, square and triangular pitches were considered. Tubes of d_o = 8 and 13 mm outer diameter were installed to study the effect of tube size, while maintaining approx. A_c = 25 % coverage of the cross-sectional area, which is typical for e.g. Fischer-Tropsch process operated in bubble column reactors. The superficial gas velocity was varied from u_g = 2 to 20 cm s-1 to cover homogeneous and heterogeneous flow regimes. Internals’ type and tube diameter were found to crucially influence the gas holdup distribution across the column diameter, which is known to generate liquid circulation, to shape the gas velocity profile and to cause intensive bubble interactions. The higher flow resistance induced by triangular tube configurations and dense tube patterns, which is attributed to the smaller hydraulic diameter of the respective configurations, forces bubbles to preferably rise near the column wall. Within the tube bundle, the radial holdup profiles show a pronounced non-parabolic trend, indicating zones of reverse liquid flow directions between the internal tubes. Furthermore, the gas-liquid flow morphology within various sub-channels was analyzed revealing a slug-like flow formation at superficial gas velocities larger than 10 cm s-1.

Keywords: Bubble column; heat exchanger internals; sub-channel analysis; local hydrodynamics; ultrafast X ray tomography

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Permalink: https://www.hzdr.de/publications/Publ-26552
Publ.-Id: 26552


Entwicklung Radium-bindender Verbindungen als Voraussetzung für deren Einsatz bei der Alpha-Therapie

Stipurin, S.

In der vorliegenden Arbeit sollen neue Radium-bindende Liganden entwickelt werden, die als potentielle bifunktionelle Chelatoren zur Entwicklung von Radiotherapeutika zur Krebsbehandlung beitragen sollen. Hierzu soll ein Calix[4]aren, bei dem bereits ein effektives und selektives Extraktionsverhalten von Barium nachgewiesen wurde, nachsynthetisiert und charakterisiert werden. Um den Einfluss und die Notwendigkeit der Überbrückung durch die Polyethereinheit auf die Chelatisierung von Metallionen genauer zu untersuchen, sollen verschiedene Trifluormethansulfonamidcalix[4]arene in der cone-Konformation synthetisiert werden. Es soll geprüft werden, wie sich der Austausch von Sauerstoff- gegen Stickstoffdonoren, aber auch eine sterisch anspruchsvollere Brücke auf die Komplexbildung auswirkt. Außerdem soll die Brückeneinheit komplett durch Trifluormethansulfonamidfunktionen ersetzt werden. Anschließend sollen die synthetisierten Verbindungen mittels NMR- und UV/Vis-Spektroskopie auf ihre Fähigkeit untersucht werden, Bariumionen zu binden. Aufgrund der ähnlichen chemischen Eigenschaften und Ionenradien lassen die Ergebnisse auch Schlüsse auf die Komplexierung von Radium zu.

Keywords: Calix[4]aren; Kronenether; Radium; Barium

  • Master thesis
    TU Dresden, 2017
    Mentor: Dr. habil. Constantin Mamat
    103 Seiten

Permalink: https://www.hzdr.de/publications/Publ-26551
Publ.-Id: 26551


Clinical feasibility of single-source dual-spiral 4D dual-energy CT for proton treatment planning within the thoracic region

Wohlfahrt, P.; Troost, E. G. C.; Hofmann, C.; Richter, C.; Jakobi, A.

Purpose: Single-source dual-spiral dual-energy computed tomography (DECT) provides additional patient information but is prone to motion between both consecutively acquired CT scans. Here, the clinical applicability of dual-spiral time-resolved DECT (4D-DECT) for proton treatment planning within the thoracic region was evaluated.

Methods and Materials: Dual-spiral 4D-DECT scans of three lung-cancer patients were acquired. For temporally averaged datasets and 4 breathing phases, the geometrical conformity of 80/140kVp 4D-DECT scans before image post-processing was assessed by normalized cross correlation (NCC). Additionally, the conformity of the corresponding DECT-derived 58/79keV pseudo-monoenergetic CT datasets (MonoCTs) after image post-processing including deformable image registration (DIR) was determined. To analyze the reliability of proton dose calculation, clinical (PlanClin) and artificial worst-case (PlanWorstCase, targeting diaphragm) treatment plans were calculated on 140kVp and 79keV datasets and compared with gamma analyses (0.1% dose-difference, 1mm distance-to-agreement criterion). The applicability of patient-specific DECT-based stopping-power-ratio (SPR) prediction was investigated and proton range shifts compared to the clinical heuristic CT-number-to-SPR conversion (HLUT) were assessed. Finally, the delineation variability of an experienced radiation oncologist was quantified on DECT-derived datasets.

Results: Dual-spiral 4D-DECT scans without DIR showed a high geometrical conformity with average NCC (±1SD) of 98.7(±1.0)% including all patient voxel or 88.2(±7.8)% considering only lung. DIR clearly improved the conformity leading to average NCC of 99.9(±0.1)% and 99.6(±0.5)%, respectively. PlanClin dose distributions on 140kVp and 79keV datasets were similar with average gamma passing rate of 99.9% (99.2%-100%). The worst-case evaluation still revealed high passing rates (average: 99.3%, minimum: 92.4%). Clinically relevant mean range shifts of 2.2(±1.2)% were determined between patient-specific DECT-based SPR prediction and HLUT. The intra-observer delineation variability could be slightly reduced by additional DECT-derived datasets.

Conclusions: 79keV MonoCT datasets can be consistently obtained from dual-spiral 4D-DECT and are applicable for proton dose calculation. Patient-specific DECT-based SPR prediction performed appropriately and potentially reduces range uncertainty in proton therapy of lung-cancer patients.

Keywords: dual-energy CT; proton range; range uncertainty; non-small cell lung cancer; 4DCT

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Permalink: https://www.hzdr.de/publications/Publ-26550
Publ.-Id: 26550


Energy scaling of laser accelerated protons at the Draco laser facility at HZDR

Obst, L.; Brack, F.-E.; Bock, S.; Bussmann, M.; Cochran, G.; Cowan, T. E.; Curry, C. B.; Gauthier, M.; Gebhardt, R.; Glenzer, S. H.; Göde, S.; Helbig, U.; Irman, A.; Jahn, A.; Kim, J. B.; Kluge, T.; Kraft, S.; Metzkes, J.; Poole, P.; Rehwald, M.; Rödel, C.; Schlenvoigt, H.-P.; Schumaker, D.; Zeil, K.; Ziegler, T.; Schramm, U.

We present various approaches to increase the generated proton energy in laser driven proton acceleration. Recent results gained at our in-house laser system deploying different laser and target parameters are shown.

  • Poster
    Doktorandenseminar des HZDR, 16.-18.10.2017, Seiffen, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26549
Publ.-Id: 26549


(+)-[18F]Flubatine ein neuer α4β2 nikotinischer Acetylcholin-Rezeptor (nAChR) PET Radioligand - Ergebnisse der First-In-Human Studie bei Patienten mit Alzheimer Demenz (AD) und gesunden Probanden (HC).

Tiepolt, S.; Becker, G. A.; Wilke, S.; Cecchin, D.; Meyer, P. M.; Barthel, H.; Hesse, S.; Patt, M.; Rullmann, M.; Wagenknecht, G.; Deuther-Conrad, W.; Ludwig, F. A.; Wagner, A.; Gertz, H. J.; Smits, R.; Hoepping, A.; Brust, P.; Sabri, O.

Abstract wird nachgereicht

  • Abstract in refereed journal
    Nuklearmedizin 57(2018), V103
  • Lecture (Conference)
    56. Jahrestagung der DGN, 18.-21.04.2018, Bremen, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26548
Publ.-Id: 26548


Cognitive correlates of α4β2 nicotinic acetylcholine receptor (α4β2-nAChR) availability in mild Alzheimer's dementia (AD) investigated with (-)-[F-18]Flubatine PET

Meyer, P. M.; Gräf, S.; Hesse, S.; Wilke, S.; Becker, G. A.; Rullmann, M.; Patt, M.; Luthardt, J.; Wagenknecht, G.; Hoepping, A.; Smits, R.; Franke, A.; Sattler, B.; Tiepolt, S.; Fischer, F.; Deuther-Conrad, W.; Hegerl, U.; Barthel, H.; Schönknecht, P.; Brust, P.; Sabri, O.

Abstract wird nachgereicht

  • Abstract in refereed journal
    Nuklearmedizin 56(2018)-V104

Permalink: https://www.hzdr.de/publications/Publ-26545
Publ.-Id: 26545


Messung des prompten γ-Strahlungsspektrums aus der Spontanspaltung von ²⁴²Pu

Urlaß, S.

The prompt gamma-ray spectrum of fission fragments (in the following PFGS) is important role for the dynamics of the fission process, as well as for nuclear engineering through gamma-ray heating in nuclear reactors. In this thesis the prompt gamma-ray spectrum from the spontaneous fission of ²⁴²Pu was measured. The gamma-quanta were detected with high time- and energy-resolution using LaBr₃ scintillators and High Purity Germanuim detectors in coincidence with spontaneous fission events of ²⁴²Pu fission chamber. This chamber was recently developed at the Helmholtz-Zentrum Dresden - Rossendorf. The aquired results show a much reduced statistical uncertainty in comparison with previous measurements. The PFGS measured with the HPGe detectors shows structures that allow conclusions about the nature of the gamma-ray transitions in the fission fragments.
The measured data can be used to test and improve statistical model calculations of the PFGS, e.g in the GEF-model.

Keywords: prompt fission gamma-ray spectrum; spontaneous fission; GEF code

Related publications

  • Master thesis
    TU Dresden, 2018
    Mentor: Dr. Arnd R. Junghans
    113 Seiten

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Permalink: https://www.hzdr.de/publications/Publ-26544
Publ.-Id: 26544


Realisierung kompakter, hochintensiver Röntgenlaser mittels Traveling-Wave Thomson-Streuung

Steiniger, K.

Öffentlicher Verteidigungsvortrag der Dissertation "High-Yield Optical Undulators Scalable to Optical Free-Electron Laser Operation by Traveling-Wave Thomson-Scattering" von Herrn Klaus Steiniger

  • Lecture (others)
    Öffentliche Verteidigung, 15.12.2017, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26543
Publ.-Id: 26543


Probing of ultra-high contrast laser-plasma interaction from condensed hydrogen jet

Ziegler, T.; Rehwald, M.; Brack, F.; Curry, C.; Gauthier, M.; Glenzer, S.; Göde, S.; Kraft, S. D.; Metzkes, J.; Obst, L.; Rödel, C.; Schlenvoigt, H.-P.; Zeil, K.; Schramm, U.

To advance the development of laser proton accelerators for highly demanding applications like cancer treatment a stable source of energetic particles at high repetition rates is required.
During our last experimental campaign at the Helmholtz-Zentrum Dresden-Rossendorf we therefore employed a pure condensed hydrogen jet as a renewable target for the 100TW Draco laser. Draco is a ultra-high power Ti:Sa laser system which delivers pulses of 30fs and 3J on target at 800nm with a repetition rate of 10Hz. A recollimating single plasma mirror results in an improved temporal contrast represented by an ASE level of 10-13.
The expanding jet was monitored on-shot with a separate phase locked diode-pumped ps-laser at a wavelength of 515 nm. By that over-exposure of the CCD resulting from strong plasma self-emission which had been observed in earlier experiments to be at the harmonics of the pump laser, could be avoided. The probe beam was split in two parts oriented perpendicular and parallel with respect to the pump laser axis in order to precisely determine the jet position and its density profile.

  • Lecture (Conference)
    DPG-Frühjahrstagung, 19.-24.03.2017, Dresden, Deutschland

Permalink: https://www.hzdr.de/publications/Publ-26542
Publ.-Id: 26542


Combination of KLOE σ(e+e → π+π γ(γ) measurements and determination of aμπ+π- in the energy range 0.10 < s < 0.95 GeV2

Anastasi, A.; Babusci, D.; Berlowski, M.; Bloise, C.; Bossi, F.; Branchini, P.; Budano, A.; Caldeira Balkeståhl, L.; Cao, B.; Ceradini, F.; Ciambrone, P.; Curciarello, F.; Czerwiński, E.; D’Agostini, G.; Danè, E.; de Leo, V.; de Lucia, E.; de Santis, A.; de Simone, P.; Di Cicco, A.; Di Domenico, A.; Domenici, D.; D’Uffizi, A.; Fantini, A.; Fantini, G.; Fermani, P.; Fiore, S.; Gajos, A.; Gauzzi, P.; Giovannella, S.; Graziani, E.; Ivanov, V. L.; Johansson, T.; Kisielewska-Kamińska, D.; Kang, X.; Kozyrev, E. A.; Krzemien, W.; Kupsc, A.; Loffredo, S.; Lukin, P. A.; Mandaglio, G.; Martini, M.; Messi, R.; Miscetti, S.; Morello, G.; Moricciani, D.; Moskal, P.; Passeri, A.; Patera, V.; Perez Del Rio, E.; Raha, N.; Santangelo, P.; Schioppa, M.; Selce, A.; Silarski, M.; Sirghi, F.; Solodov, E. P.; Tortora, L.; Venanzoni, G.; Wiślicki, W.; Wolke, M.; Keshavarzi, A.; Müller, S. E.; Teubner, T.

The three precision measurements of the cross section σ(e + e − → π + π − γ(γ)) using initial state radiation by the KLOE collaboration provide an important input for the prediction of the hadronic contribution to the anomalous magnetic moment of the muon. These measurements are correlated for both statistical and systematic uncertainties and, therefore, the simultaneous use of these measurements requires covariance matrices that fully describe the correlations. We present the construction of these covariance matrices and use them to determine a combined KLOE measurement for σ( e e → π π γ(γ) ). We find, from this combination, a two-pion contribution to the muon magnetic anomaly in the energy range 0.10 < s < 0.95 GeV2 of aμ π+π- = (489.8 ± 1.7stat ± 4.8sys ) × 10−10 .

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Permalink: https://www.hzdr.de/publications/Publ-26541
Publ.-Id: 26541


Selective Recovery of Molybdenum from Rhenium Containing Sulphate Model Solutions by Solvent Extraction with Organophosphorus and Oxime Reagents

Helbig, T.; Scharf, C.

In various primary or secondary raw materials, for example in molybdenite or in so called “Theisenschlamm”, rhenium and molybdenum appear together. Consequently, processing of those materials can lead to aqueous solutions containing both elements. In order to obtain a separation of these elements the selective recovery of molybdenum by organophosphorus (D2EHPA, Cyanex 272) and oxime (LIX 63, LIX 84, LIX 860, LIX 984) reagents diluted in kerosene is investigated. The selectivity for the extraction of molybdenum over rhenium is compared and D2EHPA, Cyanex 272 as well as LIX 984 are chosen for extraction tests from sulphate model solutions containing zinc(II), iron(III), copper(II), molybdenum(VI), rhenium(VII), antimony(V), germanium(IV) and cobalt(II). Cyanex 272 achieves the highest selectivity for molybdenum. Due to that extraction isotherms of molybdenum with Cyanex 272 are constructed.

  • Open Access Logo Contribution to proceedings
    21st International Solvent Extraction Conference, 05.-09.11.2017, Miyazaki, Japan
  • Lecture (Conference)
    21st International Solvent Extraction Conference, 05.-09.11.2017, Miyazaki, Japan

Permalink: https://www.hzdr.de/publications/Publ-26540
Publ.-Id: 26540


Ultrafast X-ray tomographic imaging of multiphase flow in bubble columns - Part 2: Characterisation of bubbles in the dense regime

Lau, Y. M.; Möller, F.; Hampel, U.; Schubert, M.

Opaqueness and visual accessibility in turbulent bubbly flows are the main cause of difficulty for conventional experimental techniques to extract properties from the bulk flow. Ultrafast X-ray tomography presents an unique possibility to visualise the dense bubbly flows and to provide the ability to characterise the bubbles. With this technique, temporally resolved measurements can be obtained from a scanning plane. The post-processed images are stacked in time, resulting in a three-dimensional matrix with two spatial and one temporal resolutions. The gas flow structures are given straightforward by the image stack, which provides unique insights of the bubbly flow dynamics. However, sizing the bubbles requires the velocity to be known, which can be achieved by means of measurement or assumption. Typically, a second measurement plane is needed for the velocity estimation. However, the employment of dual plane measurement data is limited to dilute bubbly flows. To characterise bubbles in the dense regime, a method is presented using only single plane data for size extraction without the need of velocity data. The procedure comprises determinating the Sauter diameter (d32), which depicts the ratio between volume and surface area of the bubble. Contrary to the use of dual plane measurements, here, the bubble diameter is firstly determined and from the bubble size with the assumption of the bubble’s shape, the absolute bubble velocity can be roughly estimated. This method is verified with synthetic data of simple ideal-shaped bubbles. Subsequently, real bubbly flow measurements in bubble columns (with and without internals) are applied for the assessment of the resulting bubble sizes and velocity trend.

Keywords: Ultrafast X-ray tomography; Bubble column; Flow structure; Bubble size; Sauter diameter; Bubble velocity

Permalink: https://www.hzdr.de/publications/Publ-26539
Publ.-Id: 26539


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