Gauge-invariant frozen Gaussian approximation method for the schrödinger equation with periodic potentials

dc.contributor.author

Delgadillo, R

dc.contributor.author

Lu, J

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Yang, X

dc.date.accessioned

2017-04-26T17:58:58Z

dc.date.available

2017-04-26T17:58:58Z

dc.date.issued

2016-01-01

dc.description.abstract

© 2016 Society for Industrial and Applied Mathematics.We develop a gauge-invariant frozen Gaussian approximation (GIFGA) method for the Schrödinger equation (LSE) with periodic potentials in the semiclassical regime. The method generalizes the Herman-Kluk propagator for LSE to the case with periodic media. It provides an efficient computational tool based on asymptotic analysis on phase space and Bloch waves to capture the high-frequency oscillations of the solution. Compared to geometric optics and Gaussian beam methods, GIFGA works in both scenarios of caustics and beam spreading. Moreover, it is invariant with respect to the gauge choice of the Bloch eigenfunctions and thus avoids the numerical difficulty of computing gauge-dependent Berry phase. We numerically test the method by several one-dimensional examples; in particular, the first order convergence is validated, which agrees with our companion analysis paper [Frozen Gaussian Approximation for High Frequency Wave Propagation in Periodic Media, arXiv:1504.08051, 2015].

dc.identifier.eissn

1095-7200

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1064-8275

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https://hdl.handle.net/10161/14111

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Society for Industrial & Applied Mathematics (SIAM)

dc.relation.ispartof

SIAM Journal on Scientific Computing

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10.1137/15M1040384

dc.title

Gauge-invariant frozen Gaussian approximation method for the schrödinger equation with periodic potentials

dc.type

Journal article

duke.contributor.orcid

Lu, J|0000-0001-6255-5165

pubs.begin-page

A2440

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A2463

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4

pubs.organisational-group

Chemistry

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Duke

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Mathematics

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Physics

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Trinity College of Arts & Sciences

pubs.publication-status

Published

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38

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