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Myung K. "Paul" Kim

Prof. Myung K. "Paul" Kim

Professor
University of South Florida

Department of Physics
PHY305
4202 E Fowler Ave
Tampa FL 33620-5700
United States

tel: 813 974 5223
fax: 813 974 5813
E-mail: mkkim@cas.usf.edu

Area of Expertise

Optics, digital holography and microscopy, laser spectroscopy, biomedical imaging

Biography

1986 PhD Physics, UC Berkeley, CA, infrared photon echo spectroscopy
1986-88 postdoc, SRI International, Menlo Park, CA, photon echo optical memory
1988-1995, asst prof, Wayne State Univ, Physics
1995-present, associate prof & professor, University of South Florida, Physics

Lecture Title(s)

Digital Holography for Biomedical Imaging
Dennis Gabor invented holography in 1948 while attempting to improve the resolution of electron microscopy. At the time however his invention could not be made practical, as there were no sources available with the required coherence. The invention of laser and the introduction of off-axis holography provided the critical elements to make holography practical and powerful tool for large areas of applications from metrology, data storage, optical processing, device fabrication, and even fine arts. On the other hand, the conventional process of holography using photographic plates is time-consuming and cumbersome. Real time process is not feasible unless one uses photorefractives and other nonlinear optical materials. Recently, the field has been undergoing another paradigm shift to digital holography, where the holographic interference pattern is digitally sampled by CCD camera and the image is numerically reconstructed by applying the results from the diffraction theory. It offers a number of significant advantages such as the ability to acquire the images rapidly, the availability of both the amplitude and the phase information of the optical field and the versatility of the image processing techniques that can be applied to the complex field data. The availability of the phase information of the optical field gives rise to many especially simple and direct techniques of holographic interference imaging.

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