Biography

Prof. Hyoung-In Lee

Inha University, South Korea


Email: hileesam@naver.com


Qualifications

1983 - 1988  Ph.D., Combustion & Detonation, Theoretical & Applied Mechanics (TAM), University of Illinois at Urbana-Champaign (UIUC), USA
1979 - 1981  M.Sc., Fluid Mechanics, Seoul National University, South Korea

1975 - 1979  B.Sc., Mechanical Eng., Seoul National University, South Korea


Publications (selected)
  1. H. I. Lee, D. S. Stewart, “Calculation of linear detonation instability: one-dimensional instability of plane detonation”, Journal of Fluid Mechanics, 216, 103-132 (1990)
  2. J. Mok, and Hyoung-In Lee, “Nonlinear hyperbolic differential equations in microelectronics”, J. Appl. Math. and Computing, 2, 3-9 (1995)
  3. J. Mok, and Hyoung-In Lee, “Surface-wave propagation through a metal gap with the dielectric core subdivided into multiple thin films”, J. Appl. Math. and Computing, 25, No. 1-2, 315-327 (2007)
  4. H.-I. Lee, “Wave propagation and resonance in four-layer systems for organic electroluminescent diodes”, J. Opt. Soc. Am. A, 24, 3017-3035 (2007)
  5. H.-I. Lee, and J. Mok, “Low-frequency surface-plasmon resonances in planar metal-dielectric periodic structures”, J. Optics A: Pure and Applied Optics 10, 125201 (2008)
  6. H.-I. Lee, and J. Mok, “High-frequency surface-plasmon resonance in planar metal-dielectric periodic semi-infinite structures”, J. Optical Society of America B 26, 450-459 (2009)
  7. Hyoung-In Lee and Jinsik Mok, "High-frequency surface-plasmon resonance in planar metaldielectric periodic semi-infinite structures," J. Opt. Soc. Am. B 26, 450-459 (2009)
  8. H.-I. Lee, “Damped low-frequency surface-plasmon resonance in metal-dielectric periodic structures of planar semi-infinite extent”, Optics Commun., 282, 2270-2277 (2009)
  9. Hyoung-In Lee, “Wave classification and resonant excitations in lossy metal-dielectric multilayers”, Photonics Nanostructures – Funda. Appl. 8 (3), 183-197 (2010)
  10. Ram Prakash Dwivedi, Hyoung-In Lee, Beom-hoan O, El-Hang Lee, “A theoretical model to explain the mechanism of lightwave propagation through non-metallic nanowires, Opt. Commun. 283, 4085-4089 (2010)

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