Contact

Porträt Prof. Dr. Kvashnina, Kristina; FWOS

Prof. Dr. Kristina Kvashnina

Head of Department "Molecular Structures"
Responsible for the BM20 (ROBL) beamline at ESRF
k.kvashnina@hzdr.de
Phone: +33 476 88 2367

Restart News
September 29, 2020
ROBL-II is fully operational again!

2024 -

Jessat I.

Vorschau-Bild

Beamline Optics

 ROBL-II-Optics
  • The X-ray optics provide both a high flux at high angular resolution for diffraction and a high flux over a wide energy range with high energy resolution for spectroscopy.
  • Mirror 1: a vertically collimating mirror with Rh, Pt and Si sections  
  • DCM: a double crystal monochromator with LN2-cooled Si(111), Si(111)30, and Si(311) crystal pairs
  • DMM: a double multilayer monochromator for higher flux at lower energy resolution
  • Mirror 2: a bendable double toroid mirror with Pt and Rh coating for vertical and horizontal focusing, with a non-toroid flat Si section
ROBL optics scheme with raytracing ©Copyright: Dr. habil. Scheinost, Andreas
Schematic view of the beamline optics, showing the bending magnetic at the right, the first white-beam mirror, the DCM, and the second monochromatic-beam mirror. Shown are also typical beam profiles and photon fluxes for the unfocussed beam at the XAFS station, and for the focussed beam at the XRD-1 station.
Schema DCM/DMM

A unique monochromator, which combines both a double crystal pair (in fact three pairs: Si(111), Si(111)30º, Si(311)) for high energy resolution, and a double multilayer monochromator for high flux with medium energy resolution (∼100 eV).

Mirror reflectivity

The Optics contain two long mirrors; the first, with Rh, Si and Pt surfaces, is water-cooled and collimates the beam into the monochromator to improve the energy resolution;  the second after the monochromator has two torroidal-shaped sections coated with Rh and Pt to focus the monochromatic beam vertically and horizontally, in addition to a flat Si section. Both mirrors serve also for the rejection of higher harmonics. The figure above shows the reflectivity of the different mirror surfaces at a grazing angle of 2.5 mrad.