Inverse Design and 3D Printing of a Metalens on an Optical Fiber Tip for Direct Laser Lithography

An inverse-designed metalens is proposed, designed, and fabricated on an optical fiber tip via a 3D direct laser-writing technique through two-photon polymerization. A computational inverse-design method based on an objective-first algorithm was used to design a thin circular grating-like structure to transform the parallel wavefront into a spherical wavefront at the near-infrared range. With a focal length about 8 pro at an operating wavelength of 980 nm and an optimized focal spot at the scale of 100 nm, our proposed metalens platform is suitable for two-photon direct laser lithography. We demonstrate the use of the fabricated metalens in a direct laser lithography system. The proposed platform, which combines the 3D printing technique and the computational inverse-design method, shows great promise for the fabrication and integration of multiscale and multiple photonic devices with complex functionalities.

Automated summary

An inverse-designed metalens was proposed, designed, and fabricated on an optical fiber tip using a 3D direct laser-writing technique through two-photon polymerization. The metalens, with a focal length of about 8 pro at an operating wavelength of 980 nm and an optimized focal spot at the scale of 100 nm, is suitable for two-photon direct laser lithography. The platform combining 3D printing technique and computational inverse-design method shows promise for fabrication and integration of multiscale and multiple photonic devices.