Quantum-enhanced stimulated emission microscopy

Gil Triginer Garces, H. Chrzanowski, S. Daryanoosh, V. Thiel, A. L. Marchant, R. Patel, P. Humphreys, A. Datta, I. Walmsley
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引用次数: 4

Abstract

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 labelling. 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.
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量子增强受激发射显微镜
非线性光学显微镜技术已经成为一套成功的生物成像工具。受激发射显微镜属于泵探针技术的一小部分,它可以成像非荧光样品而不需要荧光标记。然而,它的灵敏度最终受到探针束量子涨落的限制。我们提出并实验实现了亚射噪声受限受激发射显微镜,即在强压缩状态下制备探针脉冲。这项技术为精细的生物样品成像铺平了道路,这些样品没有可检测到的荧光,灵敏度超过标准量子涨落。
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