Design Methodology of a VIS Hybrid Refractive-Metalens System with Wide FOV

The emergence of metalens has opened new possibilities for miniaturizing optical systems. However, the limited group delay provided by meta-atoms restricts their aperture size under broadband operation. This challenge has stimulated the development of hybrid refractive-metalens system, which overcome the performance limitations of individual metalens while achieving a more compact form factor than conventional refractive lens assemblies. Here, we propose a design methodology for hybrid lenses that combines ray tracing with full-wave simulation. We analyze key aspects of the metalens within the hybrid system for wide wavelength band — dispersion and transmission efficiency. Based on this approach, we designed a high-resolution hybrid lens operating in the 430-650nm visible band with a 35° field of view. The results demonstrate that the proposed lens achieves equivalent imaging performance to conventional refractive systems while reducing the total track length by 29%. This validates the effectiveness of our design method, indicating its strong potential for application in compact and lightweight optical systems.