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Emeritus Professor Park, Hae Yong (박해용)

2014.12.15 17:27

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  • Position: Emeritus Professor 
    Tel&office No: +82-42-350-2519 
    Fax: +82-42-350-2510 
    E-mail: hypark_at_kaist.ac.kr 
    Homepage:  
    Education: 1978: University of Pittsburgh (Ph.D. in Physics)
    1971: SUNY at Stony Brook (M.S. in Physics)
    1968: Seoul National Univ. (B.S. in Physics) 
    Affiliation:  
    ResearchField: - Semiconductor Physics 

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  • 1984-Present:
KAIST, Professor
  • 1978~1984:
Jeonbuk National Univ., Associate Professor


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  • Optical Properties of Semiconductors
  • Photonic Crystals and Acoustic Crystals


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  • Optical Properties of Semiconductors
    III-V and II-VI compound semiconductors are widely used in optoelectonic devices such as LED and LD. Optical properties of compound semiconductors grown by the idodine transoprt method, MBE, or MCVD are investigated by measuring the photoluminescence, photoreflectance, photoconductivity, and Raman spectra at temperatures between 10K and room temperature. Stuctures and optical properties of I-III-V12 chalcopyrites and defect chalcopyrites are also under active study. Especially, doping these semiconductors with 2d transition-atom impurities enables one to investigate such phenomena as the bandgap shrinkage, broadening of the atomic eergy levels in the crystal, the substitution site of transition metals in the host lattice, and the valence band offset, etc.

  • Photonic Crystals and Acoustic Crystals
    The periodic dielectric structures are called photonic crystals and the periodic elastic stuctures are acoustic crystals , Such artificial crystals can exhibit frequency regions where the waves cannot propagate in any directions. These regions are named as photonic band gaps(PBG's) and acoustic band gaps(ABG's), analogous to electronic band gaps due to the spatial of defet in semiconductors, which gives rise to an isolated energy level within the energy band gap, can be applicable to the artificial periodic structures, too. Since defect states in PBG's and ABG's can be created by breaking locally the periodicity of the stuctures, it is possible to tune the defect the shape of the local defect. In application, photonic crystals can be used in high-efficiency semiconductor lasers, light-emitting-diodes, solar cells, optical switches, filters, and high-Qresonant cavities. Acoustic crystals can lead to improvements in the design of transducers and acoustric filters