A Multiple Scattering Theory Approach to Solving the Time-Dependent Schrödinger Equation with an Asymmetric Rectangular Potential
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- 作者:Victor F. Los victorlos@mail.ru" class="auth_mail" title="E-mail the corresponding author
- 关键词:multiple-scattering theory ; rectangular asymmetric well/barrier potential ; effective scattering potentials ; time-dependent Schrö ; dinger equation ; backward-moving wave ; dwell time ; nanostructures
- 刊名:Reports on Mathematical Physics
- 出版年:2016
- 出版时间:April 2016
- 年:2016
- 卷:77
- 期:2
- 页码:211-238
- 全文大小:5079 K
文摘
The exact expressions for an energy-dependent Green function (resolvent), space-time propagator and time-dependent solution for the wave function Ψ(r, t) of a particle moving in the presence of an asymmetric rectangular well/barrier potential are obtained. It is done by applying to this problem the multiple scattering theory (MST), which is different from previous such approaches by using the localized at the potential jumps effective potentials responsible for transmission through and reflection from the considered rectangular potential. This approach (alternative to the path-integral one) enables considering these processes from a particle (rather than a wave) point of view. The solution for the wave function describes these quantum phenomena as a function of time and is related to the fundamental issues (such as measuring time) of quantum mechanics. It is presented in terms of integrals of elementary functions and is a sum of the forward- and backward-moving components of the wave packet. The relative contribution of these components and their interference as well as of the potential asymmetry to the probability density |Ψ(x, t)|2 and particle dwell time is considered and numerically visualized for narrow and broad energy (momentum) distributions of the initial Gaussian wave packet. It is shown that in the case of a broad initial wave packet, the quantum mechanical counterintuitive effect of the influence of the backward-moving components on the considered quantities becomes significant.