• Title/Summary/Keyword: Kronig-Penney model

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nBn Based InAs/GaSb Type II Superlattice Detectors with an N-type Barrier Doping for the Long Wave Infrared Detection (InAs/GaSb 제2형 응력 초격자 nBn 장적외선 검출소자 설계, 제작 및 특성평가)

  • Kim, Ha Sul;Lee, Hun;Klein, Brianna;Gautam, Nutan;Plis, Elena A.;Myers, Stephen;Krishna, Sanjay
    • Journal of the Korean Vacuum Society
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    • v.22 no.6
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    • pp.327-334
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    • 2013
  • Long-wave infrared detectors using the type-II InAs/GaSb strained superlattice (T2SL) material system with the nBn structure were designed and fabricated. The band gap energy of the T2SL material was calculated as a function of the thickness of the InAs and GaSb layers by the Kronig-Penney model. Growth of the barrier material ($Al_{0.2}Ga_{0.8}Sb$) incorporated Te doping to reduce the dark current. The full width at half maximum (FWHM) of the $1^{st}$ satellite superlattice peak from the X-ray diffraction was around 45 arcsec. The cutoff wavelength of the fabricated device was ${\sim}10.2{\mu}m$ (0.12 eV) at 80 K while under an applied bias of -1.4 V. The measured activation energy of the device was ~0.128 eV. The dark current density was shown to be $1.0{\times}10^{-2}A/cm^2$ at 80 K and with a bias -1.5 V. The responsivity was 0.58 A/W at $7.5{\mu}m$ at 80 K and with a bias of -1.5 V.

nBn Based InAs/GaSb Type II Superlattice Detectors with an N-type Barrier Doping for the Infrared Detection

  • Kim, Ha-Sul;Lee, Hun;Hwang, Je-Hwan;Lee, Sang-Jun;Klein, B.;Myers, S.;Krishna, S.
    • Proceedings of the Korean Vacuum Society Conference
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    • 2014.02a
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    • pp.128.2-128.2
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    • 2014
  • Long-wave infrared detectors using the type-II InAs/GaSb strained superlattice (T2SL) material system with the nBn structure were designed and fabricated. The band gap energy of the T2SL material was calculated as a function of the thickness of the InAs and GaSb layers by the Kronig-Penney model. Growth of the barrier material (Al0.2Ga0.8Sb) incorporated Te doping to reduce the dark current. The full width at half maximum (FWHM) of the 1st satellite superlattice peak from the X-ray diffraction was around 45 arc sec. The cutoff wavelength of the fabricated device was ${\sim}10.2{\mu}m$ (0.12eV) at 80 K while under an applied bias of -1.4V. The measured activation energy of the device was ~0.128 eV. The dark current density was shown to be $1.2{\times}10^{-5}A/cm^2$ at 80 K and with a bias -1.4 V. The responsivity was 1.9 A/W at $7.5{\mu}m$ at 80K and with a bias of -1.9V.

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Energy band structure calculation of crystalline solids using meshfree methods (무요소법을 이8한 결정고체의 에너지 띠 구조 계산)

  • 전석기;임세영
    • Proceedings of the Computational Structural Engineering Institute Conference
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    • 2002.10a
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    • pp.623-628
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    • 2002
  • A meshfree formulation for the calculation of energy band structure is presented. The conventional meshfree shape function is modified to handle the periodicity of Bravais lattice, and applied to the calculation of real-space electronic-band structure. Numerical examples include the Kronig-Penney model potential and the empirical pseudopotentials of diamond and zinc-blonde semiconductors. Results demonstrate that the meshfree method be a promising one as a real-space technique for the calculations of diverse physical band structures.

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