Frozen Gaussian Approximation for the Dirac Equation in Curved Space with Application to Strained Graphene

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摘要 In this paper,we derive the frozen Gaussian approximation(FGA)for computing the solution to the Dirac equation in curved space in the semi-classical regime.The latter equation is used in particular for modeling electronic scattering on strained graphene surfaces.We present numerical comparisons of the Dirac solutions on curved and flat spaces,illustrating the focusing effect of graphene surfaces,as well as qualitative comparisons with a tight-binding model.A CPU-time comparison shows that FGA becomes more efficient than an IMEX pseudospectral method when the semiclassical parameter is small.

作者 Lihui Chai Lorin Emmanuel Xu Yang

机构地区 School of Mathematics School of Mathematics and Statistics Department of Mathematics

出处《Communications in Computational Physics》 SCIE 2023年第6期18-37,共20页 计算物理通讯（英文）

基金 L.C.was partially supported by the NSFC Projects Nos.12271537,11901601 E.L.was partially supported by NSERC through the Discovery Grant program.X.Y.was partially supported by the NSF grants DMS-1818592,DMS-2109116.

关键词 Dirac equation semi-classical regime frozen Gaussian approximation strained graphene

分类号 O17 [理学—基础数学]

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Communications in Computational Physics

2023年第6期

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Frozen Gaussian Approximation for the Dirac Equation in Curved Space with Application to Strained Graphene

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