A Maxwell–Schrödinger solver for quantum optical few-level systems

Abstract The msprop program presented in this work is capable of solving the Maxwell–Schrödinger equations for one or several laser fields propagating through a medium of quantum optical few-level systems in one spatial dimension and in time. In particular, it allows to numerically treat systems in which a laser field interacts with the medium with both its electric and magnetic component at the same time. The internal dynamics of the few-level system is modeled by a quantum optical master equation wh... Title of program: msprop Catalogue Id: AEHR_v1_0 Nature of problem We consider a system of quantum optical few-level atoms exposed to several near-resonant continuous-wave or pulsed laser fields. The complexity of the problem arises from the combination of the coherent and incoherent time evolution of the atoms and its dependence on the spatially varying fields. In systems with a coupling to the electric and magnetic field component the simultaneous treatment of both field components poses an additional challenge. Studying the system dynamics requires solving t ... Versions of this program held in the CPC repository in Mendeley Data AEHR_v1_0; msprop; 10.1016/j.cpc.2010.10.018 This program has been imported from the CPC Program Library held at Queen's University Belfast (1969-2018)

摘要 本工作中提出的msprop程序能够求解一维空间和时间维度内，量子光学多能级系统中传播的单个或多个激光场所满足的麦克斯韦-薛定谔方程。特别是，它允许对激光场与介质同时以其电场和磁场成分相互作用的系统进行数值处理。通过量子光学主方程对多能级系统的内部动力学进行建模... 程序名称：msprop 目录编号：AEHR_v1_0 问题性质 我们考虑一个量子光学多能级原子系统，该系统暴露于多个近共振连续波或脉冲激光场中。问题的复杂性源于原子的一致性和非一致性时间演化的组合，以及其对空间变化场的依赖性。在电场和磁场成分耦合的系统中，同时处理这两个场成分带来了额外的挑战。研究系统动力学需要求解... Mendeley数据中CPC仓库中保存的此程序的版本 AEHR_v1_0; msprop; 10.1016/j.cpc.2010.10.018 此程序已从贝尔法斯特女王大学（1969-2018）持有的CPC程序库中导入。