Non-Markovian open-system boundary conditions for the time-dependent Schrödinger equation
- 15 January 1994
- journal article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 49 (4), 2904-2906
- https://doi.org/10.1103/physrevb.49.2904
Abstract
The open-system boundary conditions for the one-dimensional Schrödinger equation are derived by dividing the unbounded domain into a finite system and two semi-infinite reservoirs. The resulting boundary conditions on the system are non-Markovian, as they contain a convolution over the history of the system. Thus, time-irreversibility arises in a pure-state problem. The propagator which appears in the boundary condition is derived for a simple discrete model. The correctness of the boundary conditions is verified and the usefulness of the discrete model is demonstrated by a numerical calculation of the time-evolution of a wave packet.Keywords
This publication has 17 references indexed in Scilit:
- Classical and quantum ballistic-transport anomalies in microjunctionsPhysical Review B, 1991
- Boundary conditions for open quantum systems driven far from equilibriumReviews of Modern Physics, 1990
- The quantum transmitting boundary methodJournal of Applied Physics, 1990
- Absorbing boundaries for wave propagation problemsJournal of Computational Physics, 1986
- Quantum theory of a free particle interacting with a linearly dissipative environmentPhysical Review A, 1985
- Two-dimensional time-dependent quantum-mechanical scattering eventAmerican Journal of Physics, 1984
- Path integral approach to quantum Brownian motionPhysica A: Statistical Mechanics and its Applications, 1983
- Computer-Generated Motion Pictures of One-Dimensional Quantum-Mechanical Transmission and Reflection PhenomenaAmerican Journal of Physics, 1967
- Ensemble Method in the Theory of IrreversibilityThe Journal of Chemical Physics, 1960
- Spatial Variation of Currents and Fields Due to Localized Scatterers in Metallic ConductionIBM Journal of Research and Development, 1957