Optoacoustic microscopy based on pi-FBG ultrasound sensors

机译：基于pi-FBG超声传感器的光声显微镜

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摘要

We present an optoacoustic (photoacoustic) microscopy (OAM) imaging system that uses a pi-shifted Fiber Bragg Grating (pi-FBG) as ultrasound (US) sensor. The sensor has an ultra-small footprint and hence allows for the detection of optoacoustic signals in close proximity to their origin. The interrogation of the pi-FBG is performed by a broadband pulsed laser, enabling a high sensitivity of the sensor as well as the elimination of ambient noise. We characterize the pi-FBG in terms of axial and lateral resolution as well as its bandwidth and find that its performance is comparable to US sensors that are based on the piezoelectric effect. We demonstrate the system's capabilities by images taken from ex vivo zebrafish and mouse ear samples. The results presented herein highlight that pi-FBGs are a promising tool for the comprehensive label-free optoacoustic imaging of biomedical samples.

机译：我们提出了一种光声（光声）显微镜（OAM）成像系统，该系统使用pi移位的光纤布拉格光栅（pi-FBG）作为超声（US）传感器。该传感器占用空间极小，因此可以在其起源附近检测光声信号。通过宽带脉冲激光器对pi-FBG进行询问，从而实现了传感器的高灵敏度并消除了环境噪声。我们根据轴向和横向分辨率及其带宽对pi-FBG进行了表征，发现pi-FBG的性能可与基于压电效应的美国传感器媲美。我们通过从离体斑马鱼和小鼠耳朵样本中拍摄的图像来证明系统的功能。本文介绍的结果突显了pi-FBGs是用于生物医学样品的全面无标签光声成像的有前途的工具。

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《Conference on photons plus ultrasound: imaging and sensing》|2017年|1006423.1-1006423.7|共7页
会议地点 San Francisco(US)
作者
Georg Wissmeyer; Rami Shnaiderman; Dominik Soliman; Vasilis Ntziachristos;
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Institute of Biological and Medical Imaging (IBMI) Helmholtz Zentrum Munchen Neuherberg Germany Chair for Biological Imaging Technische Universitat Munchen (TUM) Munich Germany;

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Optoacoustic microscopy; photoacoustic microscopy; interferometric detection of ultrasound; Fiber Bragg-Grating;

机译：光声显微镜；光声显微镜超声干涉检测光纤布拉格光栅;

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2. Discerning calvarian microvascular networks by combined optoacoustic ultrasound microscopy [J] . Héctor Estrada, Johannes Rebling, Urs Hofmann, Photoacoustics . 2020,第2期

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3. Optoacoustic determination of spatio- temporal responses of ultrasound sensors [J] . Caballero M.A.A., Rosenthal A., Buehler A., IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control . 2013,第6期

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4. Optoacoustic microscopy based on pi-FBG ultrasound sensors [C] . Georg Wissmeyer, Rami Shnaiderman, Dominik Soliman, Conference on photons plus ultrasound: imaging and sensing . 2017

机译：基于PI-FBG超声传感器的光声显微镜
5. Development of an open microcavity optoacoustic sensor for photoacoustic tomography, microscopy, and spectroscopy [D] . Peterson, Ralph Walter 2015

机译：开发用于光声层析成像，显微镜和光谱学的开放式微腔光声传感器
6. Discerning calvarian microvascular networks by combined optoacoustic ultrasound microscopy [O] . Héctor Estrada, Johannes Rebling, Urs Hofmann, 2020

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7. Interferometric microstructured polymer optical fiber ultrasound sensor for optoacoustic endoscopic imaging in biomedical applications [O] . Gallego, Daniel, Sáez Rodríguez, David, Webb, David, 2014

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8. All-Optical Optoacoustic Microscopy Based on Probe Beam Deflection Technique. [R] . Maswadi, S. M., Ibey, B. L., Roth, C. C., 2016

机译：基于探测光束偏转技术的全光学光声显微镜。

Optoacoustic microscopy based on pi-FBG ultrasound sensors

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