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Brett E. Bouma
Researcher at Harvard University
Publications - 496
Citations - 52032
Brett E. Bouma is an academic researcher from Harvard University. The author has contributed to research in topics: Optical coherence tomography & Laser. The author has an hindex of 116, co-authored 474 publications receiving 49561 citations. Previous affiliations of Brett E. Bouma include Hope College & Lahey Hospital & Medical Center.
Papers
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Velocity gradients in spatially resolved laser Doppler flowmetry and dynamic light scattering with confocal and coherence gating.
TL;DR: It is demonstrated that gradients in the axial velocity of scatterers exert a fundamental influence on the autocorrelation function even in well-behaved, nonturbulent flow, and it is shown that a single DLS measurement cannot univocally determine the velocity field.
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Optical microscopy of the pediatric vocal fold.
Caroline Boudoux,Shelby C. Leuin,Wang-Yuhl Oh,Melissa J. Suter,Adrien E. Desjardins,Benjamin J. Vakoc,Brett E. Bouma,Christopher J. Hartnick,Guillermo J. Tearney +8 more
TL;DR: The OFDI and SECM techniques were identified as promising and complementary candidates for in vivo cellular and subcellular imaging of the epithelium, basement membrane, and lamina propria of the pediatric vocal fold.
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High-energy pulsed Raman fiber laser for biological tissue coagulation
TL;DR: It is shown that the free-run configuration can generate sufficiently high energy without requiring a closed cavity design, and the Stokes beam generation process in this system and loss mechanisms mainly associated with fiber Bragg gratings are discussed.
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Differential near-field scanning optical microscopy.
Aydogan Ozcan,Ertugrul Cubukcu,A. Bilenca,Kenneth B. Crozier,Brett E. Bouma,Federico Capasso,Guillermo J. Tearney +6 more
TL;DR: In this article, the authors theoretically and experimentally illustrate a new apertured near-field scanning optical microscopy (NSOM) technique, termed differential NSOM (DNSOM), which involves scanning a relatively large (e.g., 0.3-2 mum wide) rectangular aperture (or a detector) in the near field of an object and recording detected power as a function of the scanning position.
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Robust wavenumber and dispersion calibration for Fourier-domain optical coherence tomography
TL;DR: This work proposes an optimization-based algorithm to perform robust and automated calibration of FD-OCT systems, recovering both the interpolation function and the dispersion imbalance, and results indicate that the proposed calibration method has excellent performance on a wide range of data sets and enables nearly constant resolution at all imaging depths.