1. Benjamin E. Sherlock

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    1. Mentioned In 5 Articles

    2. Feature Of The Week 04.05.2018: Fiber-Coupled Multimodal Imaging for Non-Destructive Assessment of Vascular Biomaterials

      Feature Of The Week 04.05.2018: Fiber-Coupled Multimodal Imaging for Non-Destructive Assessment of Vascular Biomaterials
      ...ive, multimodal imaging of tissue structure and composition.For more information see recent Article. Courtesy Benjamin E. Sherlock from Courtesy University of California, Davis. To share this article click Here.  ...
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    3. University of California at Davis Receives NIH Grant for A Fiber-Coupled Multimodal Imaging Platform for In Vitro Assessment of Engineering Tissue

      University of California at Davis Receives NIH Grant for A Fiber-Coupled Multimodal Imaging Platform for In Vitro Assessment of Engineering Tissue
      ...pled Multimodal Imaging Platform for In Vitro Assessment of Engineering Tissue. The principal investigator is Benjamin Sherlock. The program began in 2017 and ends in 2019. Below is a summary of the proposed work.

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    4. Simultaneous, label-free, multispectral fluorescence lifetime imaging and optical coherence tomography using a double-clad fiber

      Simultaneous, label-free, multispectral fluorescence lifetime imaging and optical coherence tomography using a double-clad fiber
      We present a novel fiber-based imaging platform that allows simultaneous fluorescence lifetime imaging (FLIm) and optical coherence tomography (OCT) using a double-clad fiber. This platform acquires co-registered images showing structural and compositional contrast in unlabeled biological samples by scanning the fiber tip across the sample surface. In this Letter, we report a characterization of each modality and show examples of co-registered FLIm and OCT images acquired from a lemon segment ...
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    5. In vivo multiphoton microscopy using a handheld scanner with lateral and axial motion compensation

      In vivo multiphoton microscopy using a handheld scanner with lateral and axial motion compensation
      This paper reports a handheld multiphoton fluorescence microscope designed for clinical imaging that incorporates axial motion compensation and lateral image stabilization. Spectral domain optical coherence tomography is employed to track the axial position of the skin surface, and lateral motion compensation is realised by imaging the speckle pattern arising from the optical coherence tomography beam illuminating the sample. Our system is able to correct lateral sample velocities of up to ...
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  2. About Benjamin E. Sherlock

    Benjamin E. Sherlock

    Benjamin Sherlock is a Postdoctoral research at University of California, Davis.