Practical trainings, student assistants and theses
Offer | School practical training | Master theses | Research Assistant | Student practical training | Volunteer internship | Diploma theses | Bachelor theses | Student Assistant | Compulsory internship | |
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Institute/ Dep. | All | FKVF | FWD | FWDC | FWDF | FWDF-P | FWDF-V | FWGR | FWGT | FWGT-B | FWIO-N | FWIO-T | | FWIZ-N | FWKT | FWPC | FWU |
Formatting | Table | |
F3AST for Focused ion beam induced deposition (Id 450)
Master theses / Diploma theses
Focused ion beam induced deposition (FIBID) allows the high resolution 3D printing of insulating, conducting, semiconducting and superconducting nanostructures with nearly arbitrary shape. However, while being similar to focused electron beam induced deposition (FEBID) the physical processes are different enough that successful printing strategies from FEBID can not be transferred one to one to the FIBID process. FEBID 3D Algorithm for Stream File generation (F3AST) is a software package developed by our partners at the Vienna University of Technology (TU Wien) that has been successfully used to predict growth parameters for FEBID. The package is agnostic to the underlying charged particle technique and should be capable—potentially with some minor modifications—to also be used for the FIBID process.
The objective of this master thesis is to obtain calibration parameters for FIBID using the helium ion microscope (HIM). The HIM is a focused ion beam (FIB) technique that allows the imaging and fabrication of nanostructures with an optimum resolution in the sub-nanometer range. It utilizes a 0.5 nm wide focused beam of He ions to raster scan the surface. This beam of energetic (typically 10 keV to 30 keV) ions can be used for high resolution imaging and materials processing. After successful calibration of the model complex 3D nanostructures will be created to demonstrate the applicability of the
F3AST software for ion beam based 3D printing.
The researchers at the TU Wien will provide a modified version of the F3AST code able to generate input files for the FIBICS NPVE pattern generator. HIM and a W(CO)6 precursor gas will be used to grow simple 3D structures for the calibration of the software. HIM and scanning electron microscope (SEM) imaging will be used to obtain high resolution images of the nanostructures and extract the required geometrical parameters which will be feed to the F3AST software. Transmission electron microscope (TEM) investigations will be used to assess the composition of selected structures.
After successful completion of the calibration complex 3D structures will be grown and their fidelity will be qualitatively and where possible quantitatively evaluated.
Department: Ion Induced Nanostructures
Requirements
Bachelor in Physics or Materials Science
Ability to work in a nanotechnology lab using delicate equipment
Ability to create simple scripts using python or similar languages
Presentation and office skills
Conditions
You will be embedded in the ion induced nanostructures group (FWIZ-N) at the ion beam center (IBC) of the HZDR.
The work is experimental and requires the presence at the IBC most of the time. Remote work is possible only partially upon case by case agreemnet.
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