Conical Refraction with Laguerre-Gaussian Beams: From Raman Spot to ‘Anti-Raman’ Doughnut Distribution

V. Mylnikov, E. Rafailov, G. Sokolovskii
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Abstract

Conical refraction (CR) is observed for the light propagating along the optical axis of a biaxial crystal. In this case a narrow beam evolves as a hollow double-walled cylinder of light behind the exit facet of a crystal. Despite of almost two-centuries-long research, CR was slow with practical applications, mainly due to the difficulties associated with cutting of the biaxial crystals with the necessary precision. However, a number of recent papers report on the emerging applications of CR for the realisation of ultra-efficient CR lasers, lasers with CR output, optical trapping with CR beams, utilisation of CR for quantum-computing, cryptography and super-resolution microscopy (see e.g. [1] and references therein). However, one of the most novel and intriguing phenomena within the CR are associated with utilization of vortex input beams. These are capable to completely change the familiar CR patterns [2] and trigger many new applications. In this sense, studies of CR with Laguerre-Gaussian beams LGl0, which are the simplest vortices, may be very fruitful (here, I is the index determining vortex charge): These already have demonstrated specific new properties of CR, such as formation of a multi-ring image in the Lloyd plane [2].
拉盖尔-高斯光束的锥形折射:从拉曼点到“反拉曼”甜甜圈分布
研究了光沿双轴晶体光轴传播时的锥形折射现象。在这种情况下,狭窄的光束在晶体的出口面后面演变成一个空心的双壁圆柱体。尽管进行了近两个世纪的研究,但CR在实际应用中进展缓慢,主要原因是难以以必要的精度切割双轴晶体。然而,最近的一些论文报道了CR在实现超高效CR激光器、具有CR输出的激光器、CR光束的光捕获、CR在量子计算、密码学和超分辨率显微镜中的应用等方面的新兴应用(参见示例[1]和其中的参考文献)。然而,在CR中最新颖和最有趣的现象之一是与涡输入光束的利用有关。它们能够完全改变熟悉的CR模式[2],并触发许多新的应用程序。从这个意义上说,使用最简单的涡旋LGl0的拉盖尔-高斯光束LGl0研究CR可能会非常富有成果(这里,I是决定涡旋电荷的指标):这些已经证明了CR的特定新性质,例如在Lloyd平面上形成多环像[2]。
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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