Creation and control of high-dimensional multi-partite classically entangled light

作     者：Yjie Shen Iaac Nape Xilin Yang Xing Fu Mali Gong Darryl Naidoo Andrew Forbes Yijie Shen;Isaac Nape;Xilin Yang;Xing Fu;Mali Gong;Darryl Naidoo;Andrew Forbes

作者机构：School of PhysicsUniversity of the WitwatersrandPrivate Bag 3Wits 2050South Africa State Key Laboratory of Precision Measurement Technology and InstrumentsDepartment of Precision InstrumentTsinghua University100084 BeijingChina Electrical and Computer Engineering DepartmentUniversity of CaliforniaLos AngelesCA 90095USA Key Laboratory of Photonic Control Technology(Tsinghua University)Ministry of Education100084 BeijingChina CSIR National Laser CentrePO Box 395Pretoria 0001South Africa Optoelectronics Research CentreUniversity of SouthamptonSouthampton S0171BJUK 

出 版 物：《Light(Science & Applications)》 (光（科学与应用)（英文版）)

年 卷 期：2021年第10卷第5期

页      面：796-805页

核心收录：

学科分类：07[理学] 070201[理学-理论物理] 0702[理学-物理学] 

基　　金：Marie S.-Curie MULTIPLY Fellowship (GA713694) National Key Research and Development Program of China (2017YFB1104500) National Natural Science Foundation of China (61975087) Natural Science Foundation of Beijing Municipality (4172030) Beijing Young Talents Support Project (2017000020124G044) 

主　　题：quantum analogy dimensions 

摘      要：Vector beams,non-separable in spatial mode and polarisation,have emerged as enabling tools in many diverse applications,from communication to *** applicability has been achieved by sophisticated laser designs controlling the spin and orbital angular momentum,but so far is restricted to only two-dimensional *** we demonstrate the first vectorially structured light created and fully controlled in eight dimensions,a new *** externally modulate our beam to control,for the frst time,the complete set of classical Greenberger-Horne-Zeilinger(GHZ)states in paraxial structured light beams,in analogy with high-dimensional multi-partite quantum entangled states,and introduce a new tomography method to verify their *** complete theoretical framework reveals a rich parameter space for further extending the dimensionality and degrees of freedom,opening new pathways for vetorilly structured light in the classical and quantum regimes.