Intersubband optical absorption in a quantum well under a tilted magnetic field

The analytical solutions of the Schrödinger equation for a double quantum well structure (DQWS) subjected to an externally applied tilted magnetic field are obtained and the results are discussed. The dependency of the energy spectrum of the system on the applied magnetic field direction is also giv

A systematic theoretical investigation of intersubband optical absorption in AlGaAs/AlAs/InGaAs strained double barrier quantum well (SDBQW) structure is presented for the first time. Electron states in a SDBQW are found to be adequately described within the framework of the envelope function approa

A periodic array of \(\delta\) function potentials are used to simulate the potential barriers between quantum wires in the presence or absence of lattice site disiocation. The exact eigenenergies and eigenfunctions are found by employing a numerical diagonalization procedure. Based on these results

An analytical approach to the problem of an exciton with extremely different electron and hole masses in a quantum well (QW) subject to a strong magnetic field is developed. The double adiabatic approximation is used. The dependence of the exciton energy levels upon the magnitude of the magnetic fie

The solution of the time-dependent Schro ¨dinger equation for an electron confined in a potential well created by a semiconductor heterostructure in the presence of an in-plane magnetic field and laser radiation is studied. Quasi-energies in a ''Gaussian" well, calculated in the Kramers-Henneberger