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Coherence Theory and Optical Coherence Tomography with Phase-Sensitive Light

2. Coherence Theory and Optical Coherence Tomography with Phase-Sensitive Light. MotivationImportance of phase-sensitive lightCoherence Theory Wave equations for classical coherence functionsGaussian-Schell model for quasimonochromatic paraxial propagationExtension to quantum fieldsOptical C

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Coherence Theory and Optical Coherence Tomography with Phase-Sensitive Light

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    1. October 23, 2006 Coherence Theory and Optical Coherence Tomography with Phase-Sensitive Light Jeffrey H. Shapiro Massachusetts Institute of Technology

    2. 2 Coherence Theory and Optical Coherence Tomography with Phase-Sensitive Light Motivation Importance of phase-sensitive light Coherence Theory Wave equations for classical coherence functions Gaussian-Schell model for quasimonochromatic paraxial propagation Extension to quantum fields Optical Coherence Tomography Conventional versus quantum optical coherence tomography Phase-conjugate optical coherence tomography Mean signatures and signal-to-noise ratios Concluding Remarks Classical versus quantum imaging

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