Modellierung und Validierung von Feldionisation in parallelen Particle-in-Cell-Codes
Contributors
- 1. TU Dresden, HZDR
- 2. HZDR
Description
The modelling of field ionization in particle-in-cell(PIC) codes is an important prerequisite to
analyzing high-power laser-matter interaction. Many field ionization models exist that have
predictive capability at non-relativistic laser intensities and for laser pulse durations much
longer than atomic time scales. Additionally many PIC codes exist which are operating on large
CPU machines and already take field ionization into account. This thesis will take a step to
model field ionization on new, highly parallel GPU architectures. Recently these architectures
are increasingly applied to large scale scientific simulations for their raw computing power.
The modelling of field ionization proves to be challenging on GPGPUs and the
extended aim of this thesis is to employ techniques to verify that implementation. Difficulties in
abiding by the constrains of the models themselves, the PIC algorithm as well as the plasma
dynamics will be pointed out. Nevertheless PIConGPU, the fastest fully relativistic particle-in-
cell code in existence, now provides an ionization framework by which new and exciting physical
problems can be tackled.
Notes
Files
MA_Ionization.pdf
Files
(3.7 MB)
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Additional details
Related works
- Is identical to
- https://www.hzdr.de/db/!Publications?pNid=head&pSelMenu=0&pSelTitle=23518 (URL)
- Is previous version of
- 10.5281/zenodo.202500 (DOI)