OPTICAL HOLOGRAPHIC INTERFEROMETRY FOR SPACE-TIME RESOLVED REFRACTIVE INDEX MEASUREMENTS.

Abstract

Two-beam optical interferometry is extremely valuable for quantitative space-time resolved refractive index measurements. Basically a two-beam optical interferometer consists of an intense light source, high quality plane mirrors, beam-splitters, and a photographic plate or viewing screen. A Mach-Zehnder interferometer arrangement utilizing coherent optical laser illumination is employed for spacetime resolved refractive index measurement of electron-ion gaseous plasmas produced in energetic pulsed pinches, laser-produced plasmas, and in media with thermal and concentration gradients. Double-pulsed Mach-Zehnder interferometry has been developed to provide effective infinite-fringe interferograms using relatively poor optics, simple alignments, low resolution films and a pulsed laser with a standard (approximately 0.1A) linewidth. Optical holographic techniques have been developed to record the 'total', three-dimensional picture onto a two-dimensional plate of film. As in optical interferometry, the intersection of a 'test' and a 'reference' beam results in an interference pattern--a hologram. For holographic interferometry, the photographic plate or film is exposed twice; one exposure with and a second exposure without the experimental medium in the test beam. Recently, two-wavelength optical interferometry techniques were extended to two-wavelength optical holographic interferometry. (Author)

Document Details

Document Type

Technical Report

Publication Date

Jun 25, 1969

Accession Number

AD0701422

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