Complete Polarization Control of Light from a Liquid Crystal Spatial Light Modulator

Overview

Journal Opt Express

Specialties Biophysics
Ophthalmology

Date 2012 Jan 26

PMID 22274360

Citations 14

Authors

Ignacio Moreno

Jeffrey A Davis

Travis M Hernandez

Don M Cottrell

David Sand

Affiliations

Soon will be listed here.

Abstract

We present a method to generate complete arbitrary spatially variant polarization modulation of a light beam by means of a parallel aligned nematic liquid crystal spatial light modulator (SLM). We first analyze the polarization modulation properties in a transmission mode. We encode diffraction gratings onto the SLM and show how to achieve partial polarization control of the zero order transmitted light. We then extend the technique to a double modulation scheme, which is implemented using a single SLM divided in two areas in a reflective configuration. The polarization states of the transmitted beam from the first pass through the first area are rotated using two passes through a quarter wave plate. The beam then passes through the second area of the SLM where additional polarization information can be encoded. By combining previously reported techniques, we can achieve complete amplitude, phase and polarization control for the diffracted light that allows the creation of arbitrary diffractive optical elements including polarization control. Theoretical analysis based on the Jones matrix formalism, as well as excellent experimental results are presented.

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