On‐Chip Plasmonic Vortex Interferometers
Yuanhao Lang, Quan Xu, Xieyu Chen, Jie Han, Jie Han, Xiaohan Jiang, Yuehong Xu, Ming Kang, Xueqian Zhang, Andrea Alù, Jiaguang Han, Jiaguang Han, Weili Zhang
Abstract
Abstract Since the late 19 th century, enormous endeavors have been made in extending the scope and capability of optical interferometers. Recently, plasmonic vortices that strongly confine the orbital angular momentum to surface have attracted considerable attention. However, current research interests in this area have focused on the mechanisms and dynamics of polarization‐dependent single plasmonic vortex generation and evolution, while the interference between different plasmonic vortices for practical applications has been unexplored. Here, a method for flexible on‐chip spin‐to‐orbital angular momentum conversion is introduced, resulting in exotic interferograms. Based on this method, a new form of interferometers that is realized by the interference between customized plasmonic vortices is demonstrated. Within wavelength‐scale dimension, the proposed plasmonic vortex interferometers exhibit superior performance to directly measure the polarization state, spin and orbital angular momentum of incident beams. The proposed interferometry is straightforward and robust, and can be expected to be applied to different scenarios, fueling fundamental advances and applications alike.