In this paper we describe a novel liquid crystal device for rapidly steering laser beams for high-power and large-aperture applications. The device consists of an array of optical phase modulators that contain a thin, active, liquid crystal layer sandwiched between two substrates. The unique aspect of the device is that each phase modulator can produce a linear (blazed) phase gradient, rather than the constant phase profile typical of other liquid crystal beam- steering devices. It is designed for use over a wide range of wavelengths and is particularly well suited for the deflection of short-wavelength laser beam. In this paper, we will describe device design, theoretical performance (diffraction efficiency and time response), and present experimental results of a device built to deflect a 1.064-micrometers laser beam.
[1]
U Efron,et al.
Birefringence measurements of liquid crystals.
,
1984,
Applied optics.
[2]
A. Sasaki,et al.
Liquid-crystal light deflector
,
1979
.
[3]
U Efron,et al.
Optimal operation temperature of liquid crystal modulators.
,
1987,
Applied optics.
[4]
Shin-Tson Wu,et al.
Infrared birefringence of liquid crystals
,
1984
.
[5]
A. B. Davey.
Electro-optic applications of liquid crystals
,
1980
.
[6]
Shin-Tson Wu,et al.
Nematic liquid crystals for spatial light modulators: recent studies
,
1986
.
[7]
Shin-Tson Wu,et al.
Liquid-Crystal-Based Visible-To-Infrared Dynamic Image Converter
,
1985
.
[8]
A. F. Fray,et al.
Large-angle beam deflector using liquid crystals
,
1975
.