两片石墨烯之间的卡西米尔力:二维菲涅尔反射系数、不同极化的贡献以及蒸发波的作用

Physics Pub Date : 2023-10-25 DOI:10.3390/physics5040066
G. L. Klimchitskaya, V. Mostepanenko
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引用次数: 0

摘要

我们考虑了两个石墨烯薄片之间的卡西米尔压力,以及由不同极化的蒸发波和传播波决定的对该压力的贡献。为此,我们根据石墨烯的横向和纵向介电常数,并适当考虑空间色散,推导出石墨烯薄片上的二维菲涅尔反射系数。利用石墨烯的极化张量,在传播波和蒸发波区域沿实数频率轴以及纯虚数松原频率上写出了介电常数作为二维波矢量、频率和温度函数的显式表达。结果表明,在狄拉克模型的应用区域,两片石墨烯之间的卡西米尔压力总值几乎是由横向磁(TM)极化的电磁场决定的。通过使用沿实频轴写入的利夫希茨公式,可以确定 TM 极化传播波和蒸发波对总压力的贡献。通过将这些结果与实际金属板材的类似结果进行对比,指出了使用现实响应函数的利夫希茨理论与金属测试体之间卡西米尔力的测量结果相一致的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Casimir Force between Two Graphene Sheets: 2D Fresnel Reflection Coefficients, Contributions of Different Polarizations, and the Role of Evanescent Waves
We consider the Casimir pressure between two graphene sheets and contributions to it determined by evanescent and propagating waves with different polarizations. For this purpose, the derivation of the 2-dimensional (2D) Fresnel reflection coefficients on a graphene sheet is presented in terms of the transverse and longitudinal dielectric permittivities of graphene with due account of the spatial dispersion. The explicit expressions for both dielectric permittivities as the functions of the 2D wave vector, frequency, and temperature are written along the real frequency axis in the regions of propagating and evanescent waves and at the pure imaginary Matsubara frequencies using the polarization tensor of graphene. It is shown that in the application region of the Dirac model nearly the total value of the Casimir pressure between two graphene sheets is determined by the electromagnetic field with transverse magnetic (TM) polarization. By using the Lifshitz formula written along the real frequency axis, the contributions of the TM-polarized propagating and evanescent waves into the total pressure are determined. By confronting these results with the analogous results found for plates made of real metals, the way for bringing the Lifshitz theory using the realistic response functions in agreement with measurements of the Casimir force between metallic test bodies is pointed out.
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