• Title/Summary/Keyword: Excitonic luminescence

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Investigation on the Excitonic Luminescence Properties of ZnO Bulk Crystal (ZnO 기판의 불순물 속박 엑시톤 발광을 이용한 물성 분석)

  • Choi, Jun Seck;Ko, Dong Wan;Jeong, Min Ji;Lee, Sang Tae;Chang, Ji Ho
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.32 no.3
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    • pp.196-200
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    • 2019
  • In this study, photoluminescence (PL) analysis was performed to evaluate the optical properties of commercial ZnO substrates. Particular attention was paid to the bound exciton (BX) luminescence, which is usually the strongest emission intensity of commercial substrates. At 15 K, PL analysis revealed that the BX peak due to donor-type impurities (donor-bound-exciton; DX) dominated, while two-electron satellite (TES) emission, donor-accepter pair (DAP) emission, and LO-phonon replica emission were also observed. The impurity concentration of the ZnO substrate was determined to be $10^{15}$ to $10^{16}/cm^3$ by examination of the temperature variation of DAP, while the half width and intensity change of the luminescence revealed that the temperature change of BX can be interpreted almost the same as the analysis of free-exciton emission.

Optical Properties of a ZnO-MgZnO Quantum-Well

  • Ahn, Do-Yeol;Park, Seoung-Hwan
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.6 no.3
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    • pp.125-130
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    • 2006
  • The optical gain and the luminescence of a ZnO quantum well with MgZnO barriers is studied theoretically. We calculated the non-Markovian optical gain and the luminescence for the strained-layer wurtzite quantum well taking into account of the excitonic effects. It is predicted that both optical gain and luminescence are enhanced for the ZnO quantum well when compared with those of InGaN-AlGaN quantum well structure due to the significant reduction of the piezoelectric effects in the ZnO-MgZnO systems.

Luminescence properties of asymmetric double quantum well composed of $Al_xGa_{l-x}As/AlAs/GaAs$ system ($Al_xGa_{l-x}As/AlAs/GaAs$계로 이루어진 비대칭 이중 양자우물 구조에서의 광 luminescsnce 특성 연구)

  • 정태형;강태종;이종태;한선규;유병수;이해권;이정희;이민영;김동호
    • Korean Journal of Optics and Photonics
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    • v.3 no.3
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    • pp.183-190
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    • 1992
  • Luminescence properties of asymmetric double quantum well structure composed of $Al_x/Ga_{1-x}$ /As AIAs/GaAs have been studied by steady state and time-resolved photoluminescence and phtoluminescence excitation spectroscopy at low temperature. Two quantum well samples with different barrier thickness (15$\AA$ and 150$\AA$) were prepared to investigate the dependence of tunneling characteristics on barrier thickness. The abscence of excitonic recombination peak from $Al_x/Ga_{1-x}$As well for the 15$\AA$ barrier sample indicates a very fast electron tunneling to GaAs well. Meanwhile, T-X transition between well and barrier is supposed to be a major route for the fast decay of luminescence from $Al_x/Ga_{1-x}$As well in the 150$\AA$ barrier sample. Time-resolved photduminescence from GaAs well of 15$\AA$ sample shows the exsitence of the rise with 100 ps which is attributed to the hole tunneling.

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Enhancement and Quenching Effects of Photoluminescence in Si Nanocrystals Embedded in Silicon Dioxide by Phosphorus Doping (인의 도핑으로 인한 실리콘산화물 속 실리콘나노입자의 광-발광현상 증진 및 억제)

  • Kim Joonkon;Woo H. J.;Choi H. W.;Kim G. D.;Hong W.
    • Journal of the Korean Vacuum Society
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    • v.14 no.2
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    • pp.78-83
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    • 2005
  • Nanometric crystalline silicon (no-Si) embedded in dielectric medium has been paid attention as an efficient light emitting center for more than a decade. In nc-Si, excitonic electron-hole pairs are considered to attribute to radiative recombination. However the surface defects surrounding no-Si is one of non-radiative decay paths competing with the radiative band edge transition, ultimately which makes the emission efficiency of no-Si very poor. In order to passivate those defects - dangling bonds in the $Si:SiO_2$ interface, hydrogen is usually utilized. The luminescence yield from no-Si is dramatically enhanced by defect termination. However due to relatively high mobility of hydrogen in a matrix, hydrogen-terminated no-Si may no longer sustain the enhancement effect on subsequent thermal processes. Therefore instead of easily reversible hydrogen, phosphorus was introduced by ion implantation, expecting to have the same enhancement effect and to be more resistive against succeeding thermal treatments. Samples were Prepared by 400 keV Si implantation with doses of $1\times10^{17}\;Si/cm^2$ and by multi-energy Phosphorus implantation to make relatively uniform phosphorus concentration in the region where implanted Si ions are distributed. Crystalline silicon was precipitated by annealing at $1,100^{\circ}C$ for 2 hours in Ar environment and subsequent annealing were performed for an hour in Ar at a few temperature stages up to $1,000^{\circ}C$ to show improved thermal resistance. Experimental data such as enhancement effect of PL yield, decay time, peak shift for the phosphorus implanted nc-Si are shown, and the possible mechanisms are discussed as well.