Tunable interference contrast using a variable Wollaston prism

Julia M. Craven-Jones; Michael W. Kudenov; Eustace L. Dereniak

doi:10.1117/1.OE.51.1.013002

19 January 2012 Tunable interference contrast using a variable Wollaston prism

Julia M. Craven-Jones, Michael W. Kudenov, Eustace L. Dereniak

Author Affiliations +

Optical Engineering, Vol. 51, Issue 1, 013002 (January 2012). https://doi.org/10.1117/1.OE.51.1.013002

Abstract

A Fourier transform spectrometer (FTS) acquires interferogram data for spectral measurements. Conventional FTS instruments incorporate Michelson interferometers. However, limitations of the Michelson for imaging applications have produced interest in alternative interferometer configurations. Common path interferometers, such as birefringent interferometers, offer advantages for remote sensing applications. To ensure the best possible signal-to-noise ratio, the fringe contrast provided by the interferometer should be maximized. Unfortunately some birefringent interferometers, such as those that utilize Wollaston prisms (WPs), require stringent tolerances in order to ensure high fringe contrast across even a modest field of view (FOV). Fabricating an interferometer to meet these tolerances adds fabrication cost and time to the development of an instrument. We present how the introduction of additional birefringent elements into birefringent interferometer can be used to compensate for a decrease in fringe visibility due to manufacturing errors. These components form a variable angle WP (VWP), which can be used to vary the fringe visibility across the FOV. Experimental results confirming the ability of the VWP to vary the fringe visibility of a birefringent interferometer are included. These results are compared to polarization raytrace simulations for the system.

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Julia M. Craven-Jones, Michael W. Kudenov, and Eustace L. Dereniak "Tunable interference contrast using a variable Wollaston prism," Optical Engineering 51(1), 013002 (19 January 2012). https://doi.org/10.1117/1.OE.51.1.013002

Published: 19 January 2012

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