Title :
Polarization-Insensitive Focusing Lens Using 2D Blocky High-Contrast Gratings
Author :
Changlian Ma ; Yongqing Huang ; Xiaofeng Duan ; Guangdong Dou ; Min Mao ; Xiaomin Ren
Author_Institution :
State Key Lab. of Inf. Photonics & Opt. Commun., Beijing Univ. of Posts & Telecommun., Beijing, China
Abstract :
We propose a high-transmissivity, polarization-insensitive focusing lens (PIFL) using 2D blocky sub-wavelength high-contrast gratings (2D-BSW-HCGs). Simultaneously, a design method for 2D-BSW-HCGs PIFL is put forward. A PIFL with high transmissivity can be constructed by designing the transmissivity and phase shift profile of nonperiodic 2D-BSW-HCGs. Properties of focusing and transmission are numerically studied with the finite-element method. The numerical simulation results show that, when the incident wavelength is 1550 nm, the transmissivity is 0.8659, and the numerical aperture (NA) is 0.535. At the focal plane, the field distribution of the average full width at half maximum is 1.7515 μm. Moreover, the design approach also can be expended to a high-NA PIFL and a polarization-insensitive focusing reflector.
Keywords :
diffraction gratings; finite element analysis; lenses; light polarisation; light transmission; optical design techniques; optical focusing; 2D blocky subwavelength high-contrast gratings; 2D-BSW-HCG PIFL; average full width at half maximum; design method; field distribution; finite-element method; focal plane; high-NA PIFL; high-transmissivity; incident wavelength; nonperiodic 2D-BSW-HCG; numerical aperture; numerical simulation; phase shift profile; polarization-insensitive focusing lens; polarization-insensitive focusing reflector; transmission; wavelength 1550 nm; Finite element analysis; Focusing; Gratings; Lenses; Media; Optimized production technology; Vertical cavity surface emitting lasers; Sub-wavelength grating; lenses; phase front; polarization insensitive;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2388795
