Generation, detection, and application of high-intensity photon-number-eigenstate fields

Details Generation, detection, and application of high-intensity photon-number-eigenstate fields Generation, detection, and application of high-intensity photon-number-eigenstate fields

May 1986

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1986phrvl..56.2176y&link_type=abstract

Physical Review Letters (ISSN 0031-9007), vol. 56, May 19, 1986, p. 2176-2179. Navy-supported research.

Physics

111

Eigenvalues, Optical Equipment, Photometers, Photons, Signal To Noise Ratios, Annihilation Reactions, Laguerre Functions, Polynomials, Quantum Efficiency, Stimulated Raman Scattering, Cars, Stimulated Brillouin And Rayleigh Scattering

Scientific paper

Near-photon-number-eigenstate fields lead to dramatic signal-to-noise improvement beyond the standard shot-noise limit in many optical systems, including interferometric gravitational-wave detectors. These fields may be generated from parametric processes with measurement feedback. Degradation from nonideal photodetection can be overcome by appropriate optical preamplification. It is estimated that an order-of-magnitude improvement can already be obtained with existing devices.

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