Abstract The spin Hall effect of light (SHEL) upon reflection and refraction of p and s waves in one-dimensional photonic crystal (1DPC) tunneling mode based on frustrated total internal reflection (FTIR) is investigated in this paper. We discuss the SHEL in three different cases based on both theoretical derivation and simulation. These results have demonstrated that the SHEL in 1DPC can be enhanced significantly when the designed 1DPC structure simultaneously satisfies both high reflection coefficient of p-wave and high transmission rate of s-wave. A transverse shift of 28.47 μm (equivalent to 45 λ in length) can be achieved in the structure without any amplification method, which is much larger than those previously reported in literature.

中文翻译：

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基于受抑全内反射的一维光子晶体中隧穿模式的自旋霍尔效应

摘要 本文研究了光的自旋霍尔效应（SHEL）对基于受抑全内反射（FTIR）的一维光子晶体（1DPC）隧道模式中p波和s波的反射和折射。我们基于理论推导和模拟讨论了三种不同情况下的 SHEL。这些结果表明，当设计的 1DPC 结构同时满足高 p 波反射系数和高 s 波透射率时，1DPC 中的 SHEL 可以显着提高。该结构无需任何放大方法即可实现28.47 μm（相当于长度45 λ）的横向位移，远大于之前文献报道的位移。