• 제목/요약/키워드: LPCVD

검색결과 240건 처리시간 0.026초

엑시머 레이저를 이용하여 결정화한 PECVD 및 LPCVD 비정질 실리콘 박막의 특성 분석 (Characterization of PECVD and LPCVD a-Si films crystallized by excimer laser)

  • 최홍석;이성규;장근호;전명철;한민구
    • 전자공학회논문지A
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    • 제33A권6호
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    • pp.172-177
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    • 1996
  • We have characterized XeCl excimer-laser-induced crystallization of thin amorphous silicon films deposited by PECVD (${\alpha}$-Si:H) and LPCVD (${\alpha}$-Si). The electrical properties, surface roughness and crystallinity of crystallized thin films have been measured. The dc conductivities, crystallinity andsurface roughness of the films increased as the laser energy density and shot density were increased. The properties of laser annealed films deposited by LPCVD were better than those of thin films deposite by PECVD. We have also found that the multiple shots with relative low energy density were more benifical to the improsvement of surface roughness than the single shot with high energy density preserving the crystallinity.

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LPCVD에서 암모니아와 염소의 누출에 대한 피해예측 (A Study on the Estimation of Damage by Leaking of NH3 and Cl2 applied to LPCVD)

  • 허용정;임사환
    • 한국가스학회지
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    • 제18권5호
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    • pp.1-5
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    • 2014
  • 첨단과학이 발전하면서 반도체의 필요성은 끊임없이 요구되고 있으며, 이러한 반도체 공정에서는 다량의 독성가스를 이용한 공정이 많다. 이러한 공정에서 가스의 누설로 인한 사고의 위험성은 항상 내재되어 있는 실정이다. 특히 국내 독성가스 사고는 암모니아와 염소에 의한 사고가 대부분이다. 따라서 본 논문에서는 LPCVD 공정에서 사용하는 암모니아와 염소의 누출로 인한 피해를 예측하여 안전에 만전을 기하고자 한다.

LPCVD 공정중 웨이퍼의 온도장 해석 (Thermal analysis of the wafers in LPCVD process)

  • 김일경;정민철;유승일;채승기;김우승;남기흠
    • 대한기계학회논문집B
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    • 제22권5호
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    • pp.651-660
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    • 1998
  • In the LPCVD reactor the temperature variations within the wafer load are the most important factor to maintain the thickness of the materials deposited on the surface of the wafer constant and to affect the deformation of each wafer. In this study the temporal variations of radial and axial temperature nonuniformities of each wafer in the LPCVD reactor are numerically estimated by assuming diffuse reflection. To verify the validity of the present numerical results, the present results obtained from the transient analysis are compared with those of Badgwell's work in which a steady-state condition was assumed. The main objective of this work is to determine the temporal variations of the temperature of each wafer in the LPCVD process since the wafers experience severe change in temperature in the early stage of the process.

두께 균일도 향상을 위한 LPCVD 챔버 내 웨이퍼 온도 분포 분석 (Analysis of temperature distribution of wafers inside LPCVD chamber for improvement of thickness uniformity)

  • 강승환;김병훈;공병환;이재원;고한서
    • 한국가시화정보학회지
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    • 제14권2호
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    • pp.25-30
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    • 2016
  • The wafer temperature and its uniformity inside the LPCVD chamber were analyzed. The temperature uniformity at the end of the wafer load depends on the heat-insulating cap. The finite difference method was used to investigate the radiation and conduction heat transfer mechanisms, and the temperature field and heat diffusion in the LPCVD chamber was visualized. It was found that the temperature uniformity of the wafers could be controlled by the size and distance of the heat-insulating cap.

$Si_2H_6$를 이용한LPCVD 실리콘 박막의 결정 성장 및 구조적 성질에 관한 연구 (A Study on the Grain Growth and Structure Properties of LPCVD Films Using $Si_2H_6$ GAS)

  • 홍찬희;박창엽
    • 대한전기학회논문지
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    • 제40권7호
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    • pp.670-674
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    • 1991
  • This paper presents the material properties of LPCVD silicon films formed using Si2H6 gas at various deposition temperatures. To study the structural properties depending on the deposition temperature, XRD, EBD and TEM analyses were used. The maximum grain size in this experiment was obtained at the deposition temperature of 485ø C. It is discussed that LPCVD films formed below the deposition temperature of 485ø C are promising for low temperature TFT applications. The enhancement of the film characteristics results from the reduction of grain boundary density. We also observed that the film properties of Si2H6 at 600ø C was quite different from those of Si H4 at 600ø C. It has shown that the grain structure from a TEM analysis was elliptical and not dependent on the deposition temperature.

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