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15–20 Jun 2014
Laurentian University / Université Laurentienne
America/Toronto timezone
Welcome to the 2014 CAP Congress! / Bienvenue au congrès de l'ACP 2014!

Parallel MicPIC for first-principle analysis of light-matter interactions in solids

18 Jun 2014, 15:00
15m
C-203 (Laurentian University / Université Laurentienne)

C-203

Laurentian University / Université Laurentienne

Sudbury, Ontario
Oral (Non-Student) / orale (non-étudiant) Division of Atomic, Molecular and Optical Physics, Canada / Division de la physique atomique, moléculaire et photonique, Canada (DAMOPC-DPAMPC) (W2-3) THz science and applications DAMOPC / Science et applications des THz - DPAMPC

Speaker

Dr Charles Varin (Université d'Ottawa)

Description

One of the main challenges in modeling laser-driven plasma physics is to properly resolve microscopic and macroscopic phenomena at the same time. For example, to resolve the propagation of a near-infrared pulse in a solid-density plasma, it is necessary to cover about four to five orders of magnitude in space---from angstrom to micron---to resolve both the atomic collision processes and light propagation. Here, traditional tools like molecular dynamics (MD) and particle-in-cell (PIC) fall short. With MD, light propagation is neglected. With PIC, microscopic interactions are limited to small-angle binary collisions, which restricts its use to the weakly coupled (low density) regime. To overcome the limitations of MD and PIC, we developed the MicPIC approach. It is actually being optimized for large-scale computations to effectively allow tracking $10^{10}$ particles with atomic-scale resolution, along with light propagation. Moreover, advanced models are being integrated into MicPIC to include on the atomic level the different ionization channels (single and multiphoton ionization, tunnel ionization, and electron impact ionization) and the atomic polarization due to bound electrons. This promises new insight into the physics of strong-field light-matter interactions in solids.

Primary author

Dr Charles Varin (Université d'Ottawa)

Co-authors

Christian Peltz (University of Rostock) Graeme Bart (Université d'Ottawa) Prof. Thomas Brabec (Université d'Ottawa) Prof. Thomas Fennel (University of Rostock)

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