Sorting infrared optical vortices with a nonlinear angular lens

• Weiqian Shu, Xiaodong Qiu, yuan ren, Wuhong Zhang, and Lixiang Chen
• received 02/26/2024; accepted 04/03/2024; posted 04/03/2024; Doc. ID 522430
• Abstract: Analogous to the regular lens, which spatially maps plane waves in the space domain to distinct points in the Fourier domain, the angular lens establishes the mapping relations between angular mode and angular position. Thus, providing an effective toolkit for detecting optical vortex. However, using angular lens to sort infrared optical vortex modes via nonlinear optical processes remains relatively unexplored. Here, we design a nonlinear optical version of the angular lens to map the various infrared optical vortex modes to different angular positions in the visible region. We successfully sort nine infrared optical vortex modes of different topological charges with a visible camera, showing the cost-effective ability to sort infrared vortices compared to a relatively expensive infrared camera. Our scheme holds promise for infrared remote sensing, infrared vortex-encoded optical communications, and so on.