High-efficiency sorting and measurement of orbital angular momentum modes based on the March–Zehnder interferometer and complex phase gratings

Abstract

With the recent exponential developments of high-speed optical communications, traditional optical communications systems are showing their limitations. Over the past decade, the orbital angular momentum (OAM) is attracting more and more research attention, due to its orthogonality between two OAM states, which supplies new degrees of freedom and can be used in fiber or free-space optical communication systems for increasing the communication capacity. Here, we propose a novel OAM de/multiplexing method based on the combination of the March–Zehnder interferometer (MZI) implanted pair of dove prisms (DP) (MZI-DP) and a complex phase gratings (CPG), which can be used to sort and detect multiple OAM modes simultaneously. The fundamental Gaussian beam illuminates the spatial light modulator (SLM) to produce the multiplexed Laguerre–Gaussian modes with different topological charges. The MZI-DP system can sort different OAM modes into odd and even values of topological charges. And then, the designed CPGs perform the concrete measurements of different sorted OAM modes. The propagating directions of different modes are arbitrarily steered by two CPGs in two MZI-DP outputting planes. With this designed system, we can simultaneously sort the OAM modes into odd and even values of topological charges, as well as performing the measurement of a large number of OAM modes without any overlapping between adjacent modes. Furthermore, we have simultaneously demultiplexed 50 different OAM modes and controlled their propagation directions successfully, which shows high-recognition rates and superior performances.