Paper
11 August 2008 Generalized quantitative approach to two-beam fringe visibility (coherence) with different polarizations and frequencies
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Abstract
All two-beam interferometry eventually reduces to quantitative measurement of the effective fringe visibility (or degree of coherence) in some form. We present generalized analytical and experimental results of visibility for the cases of two beam Poynting vectors both collinear (scanning fringe mode) and non-collinear (spatial fringe mode) with different polarizations and frequencies. This leads to a much broader and deeper understanding of the roles of material dipoles (beam splitters & detectors; both classical and quantum) in measured coherence effects that are not explicitly addressed in the traditional coherence theory. Coherence theory should be presented as correlation between sensing dipole undulations that are simultaneously induced by superposed light beams rather than as correlation between the optical fields. This generalized understanding of the physical processes behind coherence phenomenon will open up (i) better understanding of the nature of light and (ii) many more innovative approaches to quantitative interferometry.
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Chandrasekhar Roychoudhuri and A. Michael Barootkoob "Generalized quantitative approach to two-beam fringe visibility (coherence) with different polarizations and frequencies", Proc. SPIE 7063, Interferometry XIV: Techniques and Analysis, 706305 (11 August 2008); https://doi.org/10.1117/12.793747
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Cited by 6 scholarly publications.
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KEYWORDS
Visibility

Beam splitters

Sensors

Molecules

Polarization

Superposition

Light-matter interactions

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