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【大学频道】北京大学量子材料科学中心呈献 | 佛罗里达大学张晓光教授

KouShare 蔻享学术 2021-04-25


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图 | 张晓光教授


题   目:Multi-phonon processes in solids from first-principles

告人:张晓光

单   位:University of Florida

时   间:2019-05-28

地   点:北京大学

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报告摘要

Hot carrier capture by defects in semiconductors and resonant Raman scattering are both shown to be multi-phonon processes. We have constructed a comprehensive computational approach for these processes using the density functional theory. For carrier capture, we distinguish between thermal equilibrium and nonequilibrium conditions. In the thermal-equilibrium case, capture is mediated by a nonadiabatic perturbation Hamiltonian, which is equal to linear electron-phonon coupling to first order. In the nonequilibrium case, the primary capture mechanism is within the Born-Oppenheimer approximation (adiabatic transitions), with coupling to the defect potential inducing FranckCondon electronic transitions, followed by multi-phonon dissipation of the transition energy, while the nonadiabatic terms are of secondary importance. We report first-principles density-functional-theory calculations of the capture cross section for a carbon defect in GaN. As a second example, we present a first-principles calculation of the resonant Raman spectrum of MoS2/WS2 heterostructure. In this case, atomic displacements between the electronic ground state and the excited states due to charge transfer between the two layers lead to finite phonon matrix elements allowing inelastic multi-phonon relaxation to accompany the absorption and emission of photons. For each excited state, the relative Raman intensity, peak width and shape are obtained directly from a sum over all configurations of multiple phonon modes and compared to experiments. Temperature dependence of the Raman peak is calculated, which also agrees well with experiment, and predicted resonance intensity as a function of laser energy is calculated. 


个人简介

Prof. Xiaoguang Zhang obtained his B.S. in Physics at Peking University in 1983, and received his Ph.D. in Physics from Northwestern University in1989. His main research interests focus on:

1. Theory and modeling of electron transport in magnetic tunnel junctions, molecular junctions, polymers and nanoscale materials.

2. Calculation of electron mobility and defect capture cross section in semiconductors.

3. Image informatics for scanning tunneling potentiometry.


—— ——往期精彩回顾—— ——

● 北京大学量子材料科学中心呈献 | 中国科学技术大学翟晓芳研究员:Complex oxide thin films and heterostructures for novel physics and applications

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