Wide Field of View Remote Laser Position Sensor.

Abstract

A laser position sensor system is described for viewing a wide field of view for detecting the angular position of a remote laser. A laser beam directed toward the sensor from any position within a 90 deg circular field-of-view can be detected to a positional accuracy of less than 0.1 deg in a two-axis coordinate system. The system utilizes two parallel sensors having field-of-view optics that compress the field-of-view. The compressed output from each optics is directed through a polarizer and filter to a phase shifter. The phase shifter, a pair of birefringent crystals, encodes the angle of incidence of the laser beam as a phase shift between the two components of the polarized input beam. These components, the e-ray and the o-ray travel different paths through the phase shifter. Subsequently, an analyzer such as a Wollaston prism decomposes the beam into two linear components. These components are condensed through a reimager lens and coupled to a pair of intensity detectors. The detector outputs from each sensor can then be combined to provide a normalized signal proportional to a trigonometric function of the angle of incidence of the laser beam, indicative of its position in space.

Document Details

Document Type

Technical Report

Publication Date

Dec 05, 1983

Accession Number

ADD010737

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