薄膜铌酸锂微纳结构的非线性光学研究进展(特邀)
Research Progress in Nonlinear Optics of Thin-Film Lithium Niobate Micro/nano Structures(Invited)
邓莉 1高仁宏 1管江林 1黎春桃 1赵光辉 1李明慧 1乔迁1
作者信息
- 1. 华东师范大学物理与电子科学学院极端光机电实验室,上海 200241
- 折叠
摘要
薄膜铌酸锂(TFLN)微腔和波导等微纳结构提供了强烈的光场约束能力,显著增强光与物质的相互作用,在光通信、光计算、集成光学和集成量子信息处理等关键前沿科学和高技术应用领域中具有重要的应用价值.本文回顾了薄膜铌酸锂微纳结构的基本原理、制备技术演化过程和最新应用进展,并详细讨论其在频率转换、光电调制、频率光梳、微波-光波转换、量子光子学,以及激光技术等领域的广泛应用.这些技术的应用极大推动了大规模集成光子电路和量子网络的发展,同时也展望了未来与薄膜铌酸锂相关的、具有应用潜力的其他研究方向.
Abstract
Thin-film lithium niobate(TFLN)micro/nano-structures allowing strong light field confinement to boost the interaction between light and matter,shows great potentials for cutting-edge researchs and high-tech applications for high speed optical communications,high-performance optical computation,integrated photonics,and integrated quantum information processing,etc.This article reviews the basic principles,manufacturing technical advances,and the latest progress of TFLN microdevices based on microresonators and waveguides,including various applications ranging from frequency conversion,electro-optic modulation,optical frequency combs to microwave-to-optical wave conversion,quantum photonics,and microlasers.The application of these techniques has greatly promoted the development of large-scale integrated optoelectronic circuits and quantum networks.In addition,this article gives a perspective on potential applications in the future.
关键词
铌酸锂/光学微腔/波导/非线性光学/激光/量子光学/片上集成Key words
lithium niobate/optical microresonator/waveguide/nonlinear optics/laser/quantum optics/photonic integration引用本文复制引用
基金项目
国家自然科学基金面上项目(12174113)
出版年
2024
NETL
NSTL
万方数据