%0 Journal Article
%T Stochastic approach to generalized Schr{£¿}dinger equation: A method of eigenfunction expansion
%A Satoshi Tsuchida
%A Hiroshi Kuratsuji
%J Physics
%D 2015
%I arXiv
%R 10.1103/PhysRevE.91.052146
%X Using a method of eigenfunction expansion, a stochastic equation is developed for the generalized Schr{\"o}dinger equation with random fluctuations. The wave field $ {\psi} $ is expanded in terms of eigenfunctions: $ {\psi} = \sum_{n} a_{n} (t) {\phi}_{n} (x) $, with $ {\phi}_{n} $ being the eigenfunction that satisfies the eigenvalue equation $ H_{0} {\phi}_{n} = {\lambda}_{n} {\phi}_{n} $, where $ H_{0} $ is the reference "Hamiltonian" conventionally called "unperturbed" Hamiltonian. The Langevin equation is derived for the expansion coefficient $ a_{n} (t) $, and it is converted to the Fokker--Planck (FP) equation for a set $ \{ a_{n} \} $ under the assumption of the Gaussian white noise for the fluctuation. This procedure is carried out by a functional integral, in which the functional Jacobian plays a crucial role for determining the form of the FP equation. The analyses are given for the FP equation by adopting several approximate schemes.
%U http://arxiv.org/abs/1506.01787v1