Vertical Cavity Metasurface-Emitting Lasers (VCMELs) for programmable directional lasing emissions.

Featuring low threshold currents, circular beam profile, and scalable fabrication in densely packed arrays, vertical cavity surface emitting lasers (VCSELs) have made indispensable contributions to the development of modern optoelectronic technologies. Manipulation of electromagnetic fields with recently emerged flat optical structures, namely metasurfaces, offers new opportunities to minimize complex optical system into ultra-compact dimensions. Here, we proposed and experimentally realized an array of directional Vertical Cavity Metasurface-Emitting Lasers (VCMELs) through the monolithic integration of semiconductor-based metasurfaces, characterized by unmatched spatial controllability of the laser emissions. Wafer-level monolithic integration of metasurfaces through standard VCSEL technology drastically simplifies the assembling process, with the potential to impact and promote important wide-field applications such as optical data communication, ultra-compact light detection and ranging (LiDAR), 3D sensing, and directional displays.