Quantum-enhanced stimulated emission detection for label-free microscopy

Nonlinear optical microscopy techniques have emerged as a set of successful tools for biological imaging. Stimulated emission microscopy belongs to a small subset of pump–probe techniques, which can image non-fluorescent samples without requiring fluorescent labeling. However, its sensitivity has be...

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Veröffentlicht in:	Applied physics letters 2020-07, Vol.117 (2)
Hauptverfasser:	Triginer Garces, Gil, Chrzanowski, Helen M., Daryanoosh, Shakib, Thiel, Valerian, Marchant, Anna L., Patel, Raj B., Humphreys, Peter C., Datta, Animesh, Walmsley, Ian A.
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Sprache:	eng
Schlagworte:	Applied physics Biological properties Emission microscopy Emissions control Fluorescence Microscopy Optical microscopy Sensitivity Squeezed states (quantum theory) Stimulated emission
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container_title	Applied physics letters
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creator	Triginer Garces, Gil Chrzanowski, Helen M. Daryanoosh, Shakib Thiel, Valerian Marchant, Anna L. Patel, Raj B. Humphreys, Peter C. Datta, Animesh Walmsley, Ian A.
description	Nonlinear optical microscopy techniques have emerged as a set of successful tools for biological imaging. Stimulated emission microscopy belongs to a small subset of pump–probe techniques, which can image non-fluorescent samples without requiring fluorescent labeling. However, its sensitivity has been shown to be ultimately limited by the quantum fluctuations in the probe beam. We propose and experimentally implement sub-shot-noise limited stimulated emission microscopy by preparing the probe pulse in an intensity-squeezed state. This technique paves the way for imaging delicate biological samples that have no detectable fluorescence with sensitivity beyond standard quantum fluctuations.
doi_str_mv	10.1063/5.0009681
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subjects	Applied physics Biological properties Emission microscopy Emissions control Fluorescence Microscopy Optical microscopy Sensitivity Squeezed states (quantum theory) Stimulated emission
title	Quantum-enhanced stimulated emission detection for label-free microscopy
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