High-Throughput Continuous Beam Steering Using Rotating Polarization Gratings

Author

Oh, Chulwoo ; Kim, Jihwan ; Muth, John ; Serati, Steve ; Escuti, Michael J.

Author_Institution

Dept. of Electr. & Comput. Eng., North Carolina State Univ., Raleigh, CA, USA

Volume

22

Issue

4

fYear

2010

Firstpage

200

Lastpage

202

Abstract

A new beam steering concept comprising independently rotating, inline polarization gratings (PGs) is experimentally demonstrated. The approach, which we term Risley gratings, achieves high steering throughput within a large field-of-regard (FOR) in a fashion similar to Risley prisms, composed of wedged prisms. However, because PGs are patterned in thin liquid crystal layers, they enable a system with far less thickness, weight, and beam walk-off. Furthermore, large apertures are feasible and wavelengths from visible to infrared can be chosen. Any direction within a solid angle defined by twice the diffraction angle of each PG can be addressed mechanically. Here we demonstrate a Risley grating system with a 62?? FOR and 89%-92% transmittance at 1550-nm wavelength, using two PGs with 6-??m grating period.

Keywords

beam steering; diffraction gratings; infrared spectra; integrated optics; light diffraction; light polarisation; liquid crystal devices; nematic liquid crystals; optical prisms; Risley gratings; Risley prism; apertures; beam walk-off; diffraction angle; distance 6 mum; high-throughput continuous beam steering; inline polarization gratings; large field-of-regard; rotating polarization gratings; solid angle; thin liquid crystal layers; transmittance; wavelength 1550 nm; wedged prisms; Beam steering; Risley prism; diffraction; polarization grating (PG);

fLanguage

English

Journal_Title

Photonics Technology Letters, IEEE

Publisher

ieee

ISSN

1041-1135

Type

jour

DOI

10.1109/LPT.2009.2037155

Filename

5342496