Analysis of Factors Influencing the Generation of a Higher-Order Hermite-Gaussian Mode Based on Cascaded Spatial Light Modulators

Due to its complex spatial distribution, the higher-order Hermite-Gaussian mode possesses significant application in fields such as precision measurement and optical communication. The spatial light modulator, with its capability to modulate the complex amplitude distribution of the incident light field, finds extensive applications in optical information processing and adaptive optics, thus making it an indispensable tool in these fields. Using cascaded spatial light modulators can efficiently and superbly generate a higher-order Hermite-Gaussian mode; however, the experimental system is challenging, and there are many influencing factors, such as the misalignment between the optical field on the plane of the second spatial light modulator and the hologram loaded onto it, as well as the spot size of the optical field on the plane of the second spatial light modulator. In this paper, we analyzed the influence of the above factors on the quality of generating a higher-order Hermite-Gaussian mode, providing a reference for the efficient and high-quality generation of the higher-order Hermite-Gaussian mode.