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Unlocking a lower shot noise limit in dual-comb interferometry

Mathieu Walsh, Philippe Guay, Jérôme Genest

2023APL Photonics20 citationsDOIOpen Access PDF

Abstract

Optimizing the signal-to-noise ratio (SNR) is critical to achieve high sensitivities across broad spectral ranges in dual-comb interferometry. Sensitivity can be improved through time-averaging, but only at the cost of reduced temporal resolution. We show that it is instead possible to use high-bandwidth detection combined with frequency-domain averaging of multiple copies of the dual-comb beat note. By controlling the signal and noise stationarity properties, one can even reduce the fundamental shot noise contribution compared to the normal, single copy, dual-comb operation where integration time is matched to, or larger than the repetition period. In principle, the use of Na aliased frequency-domain copies will improve SNR by up to Na, or equivalently, reduce acquisition time by a factor of Na. We demonstrate dual-comb interferometry using Na = 5 aliases, achieving the predicted fivefold reduction in shot noise power density at low frequencies. Over the full spectrum, unaveraged relative intensity noise limits the SNR, but we measure a 1.65× fold improvement in detection of CO2, corresponding to a 2.7× reduction in acquisition time for a given precision.

Topics & Concepts

InterferometrySpectral densityOpticsShot noiseSignal-to-noise ratio (imaging)PhysicsBandwidth (computing)Noise reductionNoise (video)Time domainTime delay and integrationNoise powerBeat (acoustics)Computer scienceAcousticsTelecommunicationsPower (physics)Artificial intelligenceDetectorImage (mathematics)Quantum mechanicsComputer visionAdvanced Fiber Laser TechnologiesPhotonic and Optical DevicesAdvanced Fiber Optic Sensors
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