光学和角动量整体性中几何相的物理机制

arXiv - PHYS - General Physics Pub Date : 2024-04-03 DOI:arxiv-2404.05747

S C Tiwari

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摘要

有关几何相的实验和数学公式的大量文献表明了这一课题的重要性。1992 年，作者从角动量交换的角度提出了光学中几何相起源的物理机制。一些文献已经注意到了这一点，然而，所提出的机制和角动量整体性猜想的真正意义却一直难以捉摸。本论文描述了普遍存在的困惑，并对光波的性质进行了深入探讨，以解决概念问题。论文认为，从根本上讲，只存在两种类型的几何相位，它们产生于（i）波矢量空间的几何形状和（ii）偏振态空间。对于确定偏振空间模式（HG 或 LG 模式）的光束，几何相位起源于波矢空间，与偏振光的自旋重定向相位不同。角动量整体性被认为等同于一般的几何相位。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Physical mechanism for the geometric phases in optics and angular momentum holonomy

Vast literature on the experiments and mathematical formulations on the geometric phases signifies the importance of this subject. Physical mechanism for the origin of the geometric phases in optics was suggested in 1992 by the author in terms of the exchange of the angular momentum. Some of the literature has taken notice of it, however, the real import of the suggested mechanism and the angular momentum holonomy conjecture has remained elusive. The present contribution delineates the prevailing confusions and offers a thorough discussion on the nature of the light waves to resolve the conceptual issues. It is argued that at a fundamental level there exist only two types of geometric phases arising from (i) the geometry of the wave vector space, and (ii) the polarization state space. For the light beams of definite polarization spatial modes (HG or LG modes) the geometric phase has origin in the wave vector space that is different than the spin redirection phase for the polarized light. Angular momentum holonomy is proposed to be equivalent to the geometric phase in general.

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arXiv - PHYS - General Physics

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