General Analytical Solutions of the Bloch Equations

The generalized Bloch equations in the rotating frame are solved in Cartesian space by an approach that is different from the earlier Torrey solutions. The solutions are cast into a compact and convenient matrix notation, which paves the way for a direct physical insight and comprehension of the evo

The genuine multireference approaches, including multireference coupled-cluster (MRCC) methods of the state-universal and valence-universal type, are based on the generalized Bloch equation. Unlike the Schrödinger equation, the Bloch equation is nonlinear and has multiple solutions. In this study, t

which might be constant in many practical problems. Ͳ is a positive constant and Ͳ Ͻ 1. F is a positive constant which A finite difference scheme is proposed for solving the initialboundary value problem of the Maxwell-Bloch equations. Its nu-measures the number of modes that can oscillate in the re

A numerical method is developed for solving the optical Bloch equations in the center-of-mass momentum space for a closed V system in a counterpropagating field configuration. The method consists of an iterative procedure based on the matrix continued fraction and a transformation by which the optic