Eur. Phys. J. B 2, 121-129 (1998)
https://doi.org/10.1007/s100510050232

Influence of magneto-coupling between the longitudinal motion component and transverse Landau orbits of an electron on transmission features in single quantum barriers

CCAST (World Laboratory) P.O. Box 8730, Beijing 100080, China Institute of Physics, Academia Sinica, P.O. Box 603 No. 92, Beijing 100080, China

Corresponding author: ^a wangxh@aphy01.iphy.ac.cn

Received: 26 September 1997
Revised: 26 November 1997
Accepted: 15 December 1997
Published online: 15 March 1998

Abstract

In this paper we study the influence of the magneto-coupling effect between the longitudinal motion component and the transverse Landau orbits of an electron on transmission features in single barrier structures. Within the parabolic conduction-band approach, a modified one-dimensional effective-mass Schrödinger equation, including the magneto-coupling effect generated from the position-dependent effective mass of the electron, is strictly derived. Numerical calculations for single barrier structures show that the magneto-coupling effect brings about a series of the important changes for the transmission probability, the above-barrier quasi-bound states, and the tunneling time. Through examining the variation of the above-barrier resonant-transmission spectrum with the barrier width and observing the well-defined Lorentzian line-shape of the above-barrier resonant peaks, we convincingly show that the above-barrier resonant transmission in single barrier structures is delivered by the above-barrier quasibound states in the barrier region, just as the below-barrier resonant tunneling in double barrier structures is mediated by the below-barrier quasi-bound states in the well. Furthermore, we come to the conclusion that the magneto-coupling effect brings about not only the splitting of the above-barrier quasi-bound levels but also the striking reduction of the level-width of the quasi-bound states, correspondingly, the substantial increase of the density of the quasi-bound states. We suggest that magneto-coupling effects may be observed by the measurements of the optical absorption spectrum associated with the above-barrier quasi-bound states in the single barrier structures.