Jun 18 – 23, 2023
University of New Brunswick
America/Halifax timezone
Welcome to the 2023 CAP Congress Program website! / Bienvenue au siteweb du programme du Congrès de l'ACP 2023!

(I) Theoretical modeling of topological microelectronic devices with van Roosbroeck's equations

Jun 20, 2023, 3:45 PM
30m
UNB Tilley Hall (Rm. 205 (max. 85))

UNB Tilley Hall

Rm. 205 (max. 85)

Invited Speaker / Conférencier(ère) invité(e) Symposia Day (DTP - DPT) - Hot Topics From Theory Made Accessible | Les sujets chauds de la théorie rendus accessibles (DTP) T4-4 Hot Topics From Theory Made Accessible | Sujets chauds de la théorie rendus accessibles (DPT)

Speaker

Ion Garate

Description

Van Roosbroeck’s equations constitute a versatile tool to determine the dynamics of electrons under time- and space-dependent perturbations. Extensively utilized in ordinary semiconductors, their potential to model devices made from topological materials remains untapped. In this talk, we will adapt van Roosbroeck’s equations to theoretically study the bulk response of a Weyl semimetal to an ultrafast and spatially localized light pulse in the presence of a quantizing magnetic field. We predict a transient oscillatory photovoltage that originates from the chiral anomaly. The oscillations take place at the plasma frequency (THz range) and are damped by intervalley scattering and dielectric relaxation. Our results illustrate the ability of van Roosbroeck’s equations to unveil the interplay between electronic band topology and ultrafast carrier dynamics in microelectronic devices.

Keyword-1 Topological materials
Keyword-2 Van Roosbroeck equations

Primary author

Co-authors

Michaël Bédard (Université de Sherbrooke) Pierre-Antoine Graham (Université de Sherbrooke) Robin Durand (Université de Sherbrooke) Simon Bertrand (Université de Sherbrooke)

Presentation materials

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