Iver H. Brevik, Moshe M. Chaichian, Amedeo M. Favitta
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引用次数: 0
摘要
我们分析了在有限宽度 L 的二维板中的轴子电动力学,该板包含具有恒定介电常数和磁导率的均质各向同性介电介质。我们从已知的非轴子情况下的模式分解出发,然后对轴子也耦合到其中的电磁场的治理方程进行扰动求解。这是一种自然的方法,因为 L 的有限性破坏了理论在板块法线 Z 方向上的空间不变性。通过这种方法,我们可以推导出电场和磁场穿过板后轴心产生的旋转角值,并利用得到的结果计算两块导电板之间的卡西米尔力。我们的计算采用了[J. S. Høye and I. Brevik, Eur. Phys. J. Plus 135, 271 (2020)]先前概述的用于手性介质中卡西米尔计算的相同方法,并扩展了轴子电动力学中卡西米尔力的前人成果。
On the Axion Electrodynamics in a two-dimensional slab and the Casimir effect
We analyze the Axion Electrodynamics in a two-dimensional slab of finite width L containing a homogeneous and isotropic dielectric medium with constant permittivity and permeability. We start from the known decomposition of modes in the nonaxion case and then solve perturbatively the governing equations for the electromagnetic fields to which the axions are also coupled. This is a natural approach, since the finiteness of L destroys the spatial invariance of the theory in the z-direction normal to the plates. In this way, we derive the value of the axion-generated rotation angle of the electric and magnetic fields after their passage through the slab, and use the obtained results to calculate the Casimir force between the two conducting plates. Our calculations make use of the same method as previously outlined by [J. S. Høye and I. Brevik, Eur. Phys. J. Plus135, 271 (2020)] for the case of Casimir calculations in chiral media and extend former results on the Casimir force in Axion Electrodynamics.
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