The precise control of optical polarization states has emerged as a cornerstone of photonic engineering,underpinning information encoding,optical processing systems,and quantum stateresolved transmission protocols[1-3...The precise control of optical polarization states has emerged as a cornerstone of photonic engineering,underpinning information encoding,optical processing systems,and quantum stateresolved transmission protocols[1-3].Birefringent crystals exhibit optical anisotropy owing to distinct refractive indices along crystallographic axes,thereby distinguishing them from isotropic optical materials.展开更多
基金supported by the National Key Research and Development Program of China(2021YFB3601502)National Natural Science Foundation of China(22193044,22361132544,22335007,52172012)+5 种基金CAS Project for Young Scientists in Basic Research(YSBR-024)Xinjiang Major Science and Technology Project(2021A01001)Tianshan Talent Project(2022TSYCJU0001,2022TSYCCX0078)Xinjiang University 2024 Outstanding Doctoral Students’Innovation Project(XJU2024BS053)Postdoctoral Fellow-Ship Program(Grade C)(GZC20232959)Tianchi Talent Program of Xinjiang Uygur Autonomous Region。
文摘The precise control of optical polarization states has emerged as a cornerstone of photonic engineering,underpinning information encoding,optical processing systems,and quantum stateresolved transmission protocols[1-3].Birefringent crystals exhibit optical anisotropy owing to distinct refractive indices along crystallographic axes,thereby distinguishing them from isotropic optical materials.
