Standard
Truncated Wigner method for Bose gases. /
Ruostekoski, J.; Martin, A.D.
Quantum Gases: Finite Temperature and Non-Equilibrium Dynamics. ed. / N. Proukakis; S. Gardiner; M. Davies; M. Szymanska; N. Nygaard. Imperial College Press, 2013. p. 203-214 (Cold Atoms).
Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSN › Chapter
Harvard
APA
Ruostekoski, J., & Martin, A. D. (2013).
Truncated Wigner method for Bose gases. In N. Proukakis, S. Gardiner, M. Davies, M. Szymanska, & N. Nygaard (Eds.),
Quantum Gases: Finite Temperature and Non-Equilibrium Dynamics (pp. 203-214). (Cold Atoms). Imperial College Press.
Vancouver
Ruostekoski J, Martin AD.
Truncated Wigner method for Bose gases. In Proukakis N, Gardiner S, Davies M, Szymanska M, Nygaard N, editors, Quantum Gases: Finite Temperature and Non-Equilibrium Dynamics. Imperial College Press. 2013. p. 203-214. (Cold Atoms).
Author
Ruostekoski, J. ; Martin, A.D. /
Truncated Wigner method for Bose gases. Quantum Gases: Finite Temperature and Non-Equilibrium Dynamics. editor / N. Proukakis ; S. Gardiner ; M. Davies ; M. Szymanska ; N. Nygaard. Imperial College Press, 2013. pp. 203-214 (Cold Atoms).
Bibtex
@inbook{273993bd203144919c28ca161fbf0146,
title = "Truncated Wigner method for Bose gases",
abstract = "We discuss stochastic phase-space methods within the truncated Wigner approximation and show explicitly that they can be used to solve non-equilibrium dynamics of bosonic atoms in one-dimensional traps. We consider systems both with and without an optical lattice, and address different approximations in the stochastic synthesization of quantum statistical correlations of the initial atomic field. We also present a numerically efficient projection method for analyzing correlation functions of the simulation results, and demonstrate physical examples of non-equilibrium quantum dynamics of solitons and atom number squeezing in optical lattices.",
author = "J. Ruostekoski and A.D. Martin",
year = "2013",
month = apr,
day = "1",
language = "English",
isbn = "9781848168107 ",
series = "Cold Atoms",
publisher = "Imperial College Press",
pages = "203--214",
editor = "N. Proukakis and S. Gardiner and M. Davies and M. Szymanska and N. Nygaard",
booktitle = "Quantum Gases",
}
RIS
TY - CHAP
T1 - Truncated Wigner method for Bose gases
AU - Ruostekoski, J.
AU - Martin, A.D.
PY - 2013/4/1
Y1 - 2013/4/1
N2 - We discuss stochastic phase-space methods within the truncated Wigner approximation and show explicitly that they can be used to solve non-equilibrium dynamics of bosonic atoms in one-dimensional traps. We consider systems both with and without an optical lattice, and address different approximations in the stochastic synthesization of quantum statistical correlations of the initial atomic field. We also present a numerically efficient projection method for analyzing correlation functions of the simulation results, and demonstrate physical examples of non-equilibrium quantum dynamics of solitons and atom number squeezing in optical lattices.
AB - We discuss stochastic phase-space methods within the truncated Wigner approximation and show explicitly that they can be used to solve non-equilibrium dynamics of bosonic atoms in one-dimensional traps. We consider systems both with and without an optical lattice, and address different approximations in the stochastic synthesization of quantum statistical correlations of the initial atomic field. We also present a numerically efficient projection method for analyzing correlation functions of the simulation results, and demonstrate physical examples of non-equilibrium quantum dynamics of solitons and atom number squeezing in optical lattices.
M3 - Chapter
SN - 9781848168107
T3 - Cold Atoms
SP - 203
EP - 214
BT - Quantum Gases
A2 - Proukakis, N.
A2 - Gardiner, S.
A2 - Davies, M.
A2 - Szymanska, M.
A2 - Nygaard, N.
PB - Imperial College Press
ER -
