The electron flow through quantum waveguides is modeled by the time-dependent Schrö-dinger equation with absorbing boundary conditions, which are realized by a negative imaginary potential. The Schrödinger equation is discretized by a time-splitting spectral method, and the quantum waveguides are fed by a mono-energetic incoming plane wave pulse. The resulting algorithm is extremely efficient due to the Fast Fourier Transform implementation of the spectral scheme. Numerical convergence rates for a one-dimensional scattering problem are calculated. The transmission rates of a two-dimensional T-stub quantum waveguide and a single-branch coupler are numerically computed. Moreover, the transient behavior of a three-dimensional T-stub waveguid...
Abstract: The numerical approximation of the solution of the time-dependent Schrödinger equation ar...
Discrete transparent boundary conditions (DTBC) and the Perfectly Matched Layers (PML) method for th...
A numerical method was proposed to propagate the quantum system with a time-dependent Hamiltonian. T...
ISBN 978-3-902627-03-2 c © Alle Rechte vorbehalten. Nachdruck nur mit Genehmigung des Autors. ASC TU...
A numerical method for solving Schrodinger's equation based upon a Baker-Campbell-Hausdorff (BCH) ex...
This project is an immersive study in numerical methods, focusing on quantum molecular dynamics and ...
Numerical simulation has become a major tool in quantum electronics both for fundamental and applied...
This chapter is a review of the research of the authors from the last decade and focuses on the math...
In this paper, we present a highly accurate and effective theoretical model to study electron transp...
Methods for the approximate numerical integration of the time dependent Schrodinger equation with gi...
We consider one-dimensional wave package propagation through potential barriers. We test several app...
The behavior of particles at the atomic level is dictated by quantum theory and must satisfy the Sch...
A method is presented to calculate the eigenenergies and eigenfunctions of quantum wires. This is a ...
As electronic circuits get progressingly smaller to the nanometre scale, the quantum wave nature of ...
Effective modeling and numerical spectral-based propagation schemes are proposed for addressing the ...
Abstract: The numerical approximation of the solution of the time-dependent Schrödinger equation ar...
Discrete transparent boundary conditions (DTBC) and the Perfectly Matched Layers (PML) method for th...
A numerical method was proposed to propagate the quantum system with a time-dependent Hamiltonian. T...
ISBN 978-3-902627-03-2 c © Alle Rechte vorbehalten. Nachdruck nur mit Genehmigung des Autors. ASC TU...
A numerical method for solving Schrodinger's equation based upon a Baker-Campbell-Hausdorff (BCH) ex...
This project is an immersive study in numerical methods, focusing on quantum molecular dynamics and ...
Numerical simulation has become a major tool in quantum electronics both for fundamental and applied...
This chapter is a review of the research of the authors from the last decade and focuses on the math...
In this paper, we present a highly accurate and effective theoretical model to study electron transp...
Methods for the approximate numerical integration of the time dependent Schrodinger equation with gi...
We consider one-dimensional wave package propagation through potential barriers. We test several app...
The behavior of particles at the atomic level is dictated by quantum theory and must satisfy the Sch...
A method is presented to calculate the eigenenergies and eigenfunctions of quantum wires. This is a ...
As electronic circuits get progressingly smaller to the nanometre scale, the quantum wave nature of ...
Effective modeling and numerical spectral-based propagation schemes are proposed for addressing the ...
Abstract: The numerical approximation of the solution of the time-dependent Schrödinger equation ar...
Discrete transparent boundary conditions (DTBC) and the Perfectly Matched Layers (PML) method for th...
A numerical method was proposed to propagate the quantum system with a time-dependent Hamiltonian. T...