M
Myung K. Kim
Researcher at University of South Florida
Publications - 198
Citations - 5519
Myung K. Kim is an academic researcher from University of South Florida. The author has contributed to research in topics: Digital holography & Holography. The author has an hindex of 37, co-authored 198 publications receiving 5075 citations. Previous affiliations of Myung K. Kim include Sewanee: The University of the South & Massachusetts Institute of Technology.
Papers
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Principles and techniques of digital holographic microscopy
TL;DR: Digital holography is an emerging field of new paradigm in general imaging applications as discussed by the authors, and a review of a subset of the research and development activities in digital holographic microscopy techniques and applications is presented.
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High-resolution quantitative phase-contrast microscopy by digital holography
TL;DR: Techniques of digital holography are improved in order to obtain high-resolution, high-fidelity images of quantitative phase-contrast microscopy, and the angular spectrum method of calculating holographic optical field is seen to have significant advantages including tight control of spurious noise components.
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Phase imaging without 2π ambiguity by multiwavelength digital holography
TL;DR: A phase-imaging method with an axial range that can in principle be arbitrarily large compared to the wavelength and does not involve the usual phase unwrapping by detection of phase discontinuity is presented.
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Wavelength-scanning digital interference holography for tomographic three-dimensional imaging by use of the angular spectrum method
Lingfeng Yu,Myung K. Kim +1 more
TL;DR: A tomographic imaging system based on wavelength-scanning digital interference holography is developed by applying the angular spectrum method, which can reconstruct the wave field at any distance from the hologram plane.
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Full color natural light holographic camera
TL;DR: Full-color, three-dimensional images of objects under incoherent illumination are obtained by a digital holography technique based on self-interference of two beam-split copies of the object's optical field with differential curvatures based on a few mirrors and lenses, a piezo-actuator, and a color camera.