Asymptotic stochastic transformations for nonlinear quantum dynamical systems

John Gough

doi:10.1016/s0034-4877(00)87242-0

Asymptotic stochastic transformations for nonlinear quantum dynamical systems

John Gough^*

^*Corresponding author for this work

Nottingham Trent University

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

Abstract

The Ito and Stratonovich approaches are carried over to quantum stochastic systems. Here the white noise representation is shown to be the most appropriate as here the two approaches appear as Wick and Weyl orderings, respectively. This introduces for the first time the Stratonovich form for SDEs driven by Poisson processes or quantum SDEs including the conservation process. The relation of the nonlinear Heisenberg ODEs to asymptotic quantum SDEs is established extending previous work on linear (Schrödinger) equations. This is shown to generalize the classical integral transformations between the various forms of stochastic calculi and to extend the Khasminskii theorem to the quantum setting.

Original language	English
Pages (from-to)	313-338
Number of pages	26
Journal	Reports on Mathematical Physics
Volume	44
Issue number	3
DOIs	https://doi.org/10.1016/s0034-4877(00)87242-0
Publication status	Published - Dec 1999
Externally published	Yes

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title = "Asymptotic stochastic transformations for nonlinear quantum dynamical systems",

abstract = "The Ito and Stratonovich approaches are carried over to quantum stochastic systems. Here the white noise representation is shown to be the most appropriate as here the two approaches appear as Wick and Weyl orderings, respectively. This introduces for the first time the Stratonovich form for SDEs driven by Poisson processes or quantum SDEs including the conservation process. The relation of the nonlinear Heisenberg ODEs to asymptotic quantum SDEs is established extending previous work on linear (Schr{\"o}dinger) equations. This is shown to generalize the classical integral transformations between the various forms of stochastic calculi and to extend the Khasminskii theorem to the quantum setting.",

author = "John Gough",

note = "Funding Information: This work was supported by the Irish Higher Education Authority{\textquoteright}s EU Presidency Research Fellowship Program and the author would like to thank Professor D. Heffernan (Maynooth) for many stimulatingd iscussionsw hile writing this paper. The author also acknowledgesm any valuable commentsm ade by the referee which have lead to an improvementt o the original version. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.",

year = "1999",

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PY - 1999/12

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N2 - The Ito and Stratonovich approaches are carried over to quantum stochastic systems. Here the white noise representation is shown to be the most appropriate as here the two approaches appear as Wick and Weyl orderings, respectively. This introduces for the first time the Stratonovich form for SDEs driven by Poisson processes or quantum SDEs including the conservation process. The relation of the nonlinear Heisenberg ODEs to asymptotic quantum SDEs is established extending previous work on linear (Schrödinger) equations. This is shown to generalize the classical integral transformations between the various forms of stochastic calculi and to extend the Khasminskii theorem to the quantum setting.

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Asymptotic stochastic transformations for nonlinear quantum dynamical systems

Abstract

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