Spin-orbit interactions in a nonlinear medium due to a nonlinear-induced geometric phase

Fuxin Guan; Yue Hu; Xiaoyu Dai; Xiaohui Ling; Shaojie Ma; Jing Lin; Shaohua Dong; Yuanjiang Xiang

doi:10.1364/OL.426124

Spin-orbit interactions in a nonlinear medium due to a nonlinear-induced geometric phase

Fuxin Guan, Yue Hu, Xiaoyu Dai, Xiaohui Ling, Shaojie Ma, Jing Lin, Shaohua Dong, Yuanjiang Xiang

Department of Physics

Research output: Contribution to journal › Journal article › peer-review

8 Citations (Scopus)

Abstract

In general, a spin-polarized light beam cannot couple its spin angular momentum (SAM) with intrinsic orbital angular momentum (IOAM) without spin reversal. Here we find that nonlinear media can give the spin-polarized photon an IOAM, as they travel in the media due to the nonlinear susceptibility along the transmission direction, which does not require spin reversal.To characterize this SAM-to-IOAM conversion process, we establish an evolution ray equation for photons carrying IOAM by reference to the Schrödinger equation. We further reveal the inherent physics of such a phenomenon from a full-wave perspective and find that the vortex generation originates from the nonlinear-induced geometric phase.

Original language	English
Pages (from-to)	2758-2761
Number of pages	4
Journal	Optics Letters
Volume	46
Issue number	11
Early online date	27 May 2021
DOIs	https://doi.org/10.1364/OL.426124
Publication status	Published - 1 Jun 2021

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title = "Spin-orbit interactions in a nonlinear medium due to a nonlinear-induced geometric phase",

abstract = "In general, a spin-polarized light beam cannot couple its spin angular momentum (SAM) with intrinsic orbital angular momentum (IOAM) without spin reversal. Here we find that nonlinear media can give the spin-polarized photon an IOAM, as they travel in the media due to the nonlinear susceptibility along the transmission direction, which does not require spin reversal.To characterize this SAM-to-IOAM conversion process, we establish an evolution ray equation for photons carrying IOAM by reference to the Schr{\"o}dinger equation. We further reveal the inherent physics of such a phenomenon from a full-wave perspective and find that the vortex generation originates from the nonlinear-induced geometric phase.",

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T1 - Spin-orbit interactions in a nonlinear medium due to a nonlinear-induced geometric phase

AU - Guan, Fuxin

AU - Hu, Yue

AU - Dai, Xiaoyu

AU - Ling, Xiaohui

AU - Ma, Shaojie

AU - Lin, Jing

AU - Dong, Shaohua

AU - Xiang, Yuanjiang

PY - 2021/6/1

Y1 - 2021/6/1

N2 - In general, a spin-polarized light beam cannot couple its spin angular momentum (SAM) with intrinsic orbital angular momentum (IOAM) without spin reversal. Here we find that nonlinear media can give the spin-polarized photon an IOAM, as they travel in the media due to the nonlinear susceptibility along the transmission direction, which does not require spin reversal.To characterize this SAM-to-IOAM conversion process, we establish an evolution ray equation for photons carrying IOAM by reference to the Schrödinger equation. We further reveal the inherent physics of such a phenomenon from a full-wave perspective and find that the vortex generation originates from the nonlinear-induced geometric phase.

AB - In general, a spin-polarized light beam cannot couple its spin angular momentum (SAM) with intrinsic orbital angular momentum (IOAM) without spin reversal. Here we find that nonlinear media can give the spin-polarized photon an IOAM, as they travel in the media due to the nonlinear susceptibility along the transmission direction, which does not require spin reversal.To characterize this SAM-to-IOAM conversion process, we establish an evolution ray equation for photons carrying IOAM by reference to the Schrödinger equation. We further reveal the inherent physics of such a phenomenon from a full-wave perspective and find that the vortex generation originates from the nonlinear-induced geometric phase.

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Spin-orbit interactions in a nonlinear medium due to a nonlinear-induced geometric phase

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