角动量
叠加原理
物理
接口(物质)
光学
光子
多模光纤
高斯分布
方位角
拓扑(电路)
量子力学
光纤
数学
组合数学
吉布斯等温线
表面张力
作者
Xiaodong Qiu,Haoxu Guo,Yuan Ren,Lixiang Chen
标识
DOI:10.1103/physrevapplied.19.044072
摘要
Frequency interface, namely, converting the colors of photons while retaining their other features, is indispensable for numerous applications ranging from up-conversion imaging to the multimode quantum network. However, limited by the nonuniform nonlinear frequency-conversion efficiency, constructing the frequency interface for high-dimensional spatial modes is still challenging. Here, to break this fundamental barrier, we construct a high-dimensional (HD) orbital-angular-momentum (OAM) frequency interface via conducting sum-frequency generation between HD OAM states to be converted and a radial structured pump. Specifically, by replacing the conventional Gaussian pump with an optimized coherent superposition of HD Laguerre-Gaussian radial modes (i.e., its azimuthal number is zero), we experimentally achieve the OAM frequency interface in nine dimensions with a record fidelity up to 90.38 %. Additionally, by increasing the number of radial modes, our scheme can be flexibly extended to higher dimension. Such a high-dimensional frequency interface could find potential applications in the high-capacity free-space optical communication and would also pave the way for constructing high-dimensional quantum networks.
科研通智能强力驱动
Strongly Powered by AbleSci AI