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Quantum Advantage with Seeded Squeezed Light for Absorption Measurement

Fu Li, Tian Li, Marlan O. Scully, G. S. Agarwal

2021Physical Review Applied32 citationsDOIOpen Access PDF

Abstract

Absorption measurement is an exceptionally versatile tool for many applications in science and engineering. For absorption measurements using laser beams of light, the sensitivity is theoretically limited by the shot noise due to the fundamental Poisson distribution of the photon number in laser radiation. In practice, the shot-noise limit can only be achieved when all other sources of noise are eliminated. Here, we use seeded squeezed light to demonstrate that direct-absorption measurements can be performed with a sensitivity beyond the shot-noise limit. We present a practically realizable scheme, where intensity-squeezed beams are generated by a seeded four-wave mixing process in an atomic rubidium-vapor cell. More than 1.2 dB quantum advantage for the measurement sensitivity is obtained at faint absorption levels ($\ensuremath{\le}10\mathrm{%}$). We also present a detailed theoretical analysis to show that the observed quantum advantage when corrected for optical loss would be equivalent to 3 dB. Our experiment demonstrates a direct sub-shot-noise measurement of absorption that requires neither homodyne or lock-in nor logic coincidence-detection schemes. It is therefore very applicable in many circumstances where sub-shot-noise-level absorption measurements are highly desirable.

Topics & Concepts

Shot noiseAbsorption (acoustics)Squeezed coherent stateNoise (video)Sensitivity (control systems)PhysicsOpticsHomodyne detectionQuantum noiseQuantum limitLaserPhotonQuantumQuantum mechanicsElectronic engineeringDetectorCoherent statesComputer scienceImage (mathematics)EngineeringArtificial intelligenceQuantum optics and atomic interactionsQuantum Information and CryptographyCold Atom Physics and Bose-Einstein Condensates
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