Polarization-controlled evolution of light transverse modes and associated Pancharatnam geometric phase in orbital angular momentum

Ebrahim Karimi; Sergei Slussarenko; Bruno Piccirillo; Lorenzo Marrucci; Enrico S antamato

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Polarization-controlled evolution of light transverse modes and associated Pancharatnam geometric phase in orbital angular momentum

机译：轨道角动量中光横模和相关的Pancharatnam几何相位的偏振控制演化

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We present an easy, efficient, and fast method to generate arbitrary linear combinations of light orbital angular-momentum eigenstates P = ±2 starting from a linearly polarized TEM00 laser beam. The method exploits the spin-to-orbital angular-momentum conversion capability of a liquid-crystal-based q plate and a Dove prism inserted into a Sagnac polarizing interferometer. The nominal generation efficiency is 100%, being limited only by reflection and scattering losses in the optical components. When closed paths are followed on the polarization Poincare sphere of the input beam, the associated Pancharatnam geometric phase is transferred unchanged to the orbital angular momentum state of the output beam.

机译：我们提出了一种简单，有效和快速的方法，从线性偏振TEM00激光束开始生成光轨道角动量本征态P =±2的任意线性组合。该方法利用了基于液晶的q板和插入Sagnac偏振干涉仪中的道威棱镜的自旋至轨道角动量转换能力。标称生成效率为100％，仅受光学组件中的反射和散射损耗限制。当在输入光束的偏振庞加莱球上遵循闭合路径时，相关的Pancharatnam几何相位将不变地传递到输出光束的轨道角动量状态。

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《Physical Review, A. Atomic, molecular, and optical physics》 |2010年第2期|共5页
作者
Ebrahim Karimi; Sergei Slussarenko; Bruno Piccirillo; Lorenzo Marrucci; Enrico S antamato;
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正文语种 eng
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evolution; momentum; combinations;

机译：演化;动量;组合;

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1. Polarization-controlled evolution of light transverse modes and associated Pancharatnam geometric phase in orbital angular momentum [J] . Ebrahim Karimi, Sergei Slussarenko, Bruno Piccirillo, Physical Review, A. Atomic, molecular, and optical physics . 2010,第5aPta2期

机译：轨道角动量中光横模和相关的Pancharatnam几何相位的偏振控制演化
2. Identifying Orbital Angular Momentum of Vectorial Vortices with Pancharatnam Phase and Stokes Parameters [J] . Dengke Zhang, Xue Feng, Kaiyu Cui, Scientific reports. . 2015,第1期

机译：用Pancharatnam相和Stokes参数识别矢量涡旋的轨道角动量
3. Phase Conjugation and Mode Conversion in Stimulated Parametric Down-Conversion with Orbital Angular Momentum: a Geometrical Interpretation [J] . de Oliveira A. G., Arruda M. F. Z., Soares W. C., Brazilian journal of physics . 2019,第1期

机译：刺激参数下转换的相位缀合和模式转化与轨道角动量：几何解释
4. Rotating light with light: Generation of helical modes of light by spin-to-orbital angular momentum conversion in inhomogeneous liquid crystals [C] . Lorenzo Marrucci Liquid Crystals and Applications in Optics; Proceedings of SPIE-The International Society for Optical Engineering; vol.6587 . 2007

机译：用光旋转光：在非均质液晶中通过自旋至轨道角动量转换产生光的螺旋模式
5. Coupling of Light's Orbital Angular Momentum to a Quantum Dot Ensemble [D] . Bahamran, Alaa A. 2019

机译：光的轨道角动量耦合到量子点整体
6. Identifying Orbital Angular Momentum of Vectorial Vortices with Pancharatnam Phase and Stokes Parameters [O] . Dengke Zhang, Xue Feng, Kaiyu Cui, -1

机译：用Pancharatnam相和Stokes参数确定矢量涡旋的轨道角动量
7. Polarization-controlled evolution of light transverse modes and associated Pancharatnam geometric phase in orbital angular momentum [O] . Karimi, Ebrahim, Slussarenko, Sergei, Piccirillo, Bruno, 2010

机译：偏振控制的光横模和相关的Pancharatnam几何演化轨道角动量相位

Polarization-controlled evolution of light transverse modes and associated Pancharatnam geometric phase in orbital angular momentum

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