Nonclassical Light in Interferometric Measurements

N. A. Ansari; L. Di Fiore; M.A.Man'ko; V.I.Man'ko; R. Romano; S.; Solimeno; F. Zaccaria

arXiv:hep-th/9407171·hep-th·August 16, 2019

Nonclassical Light in Interferometric Measurements

N. A. Ansari, L. Di Fiore, M.A.Man'ko, V.I.Man'ko, R. Romano, S., Solimeno, F. Zaccaria

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TL;DR

This paper explores how nonclassical light states, such as even and odd coherent states, can enhance interferometric measurement sensitivity, potentially replacing squeezed light in gravitational wave detectors.

Contribution

It introduces the use of nonclassical light states as an alternative to squeezed light for improving interferometric measurement sensitivity.

Findings

01

Nonclassical states can replace squeezed light in detectors

02

Enhanced sensitivity with nonclassical light states

03

Potential for improved gravitational wave detection

Abstract

It is shown that the even and odd coherent light and other nonclassical states of light like superposition of coherent states with different phases may replace the squeezed light in interferometric gravitational wave detector to increase its sensitivity. (Contribution to the Second Workshop on Harmonic Oscillator, Cocoyoc, Mexico, March 1994)

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Taxonomy

TopicsAdvanced Frequency and Time Standards · Geophysics and Sensor Technology · Pulsars and Gravitational Waves Research