• DocumentCode
    1645675
  • Title

    Effects of microcontaminants in oxygen during gate oxide growth: interfacial effects and device reliability

  • Author

    Beck, S.E. ; George, M.A. ; Bohling, D.A. ; Shemanski, B.J. ; McGuire, J.T. ; Hames, G.A. ; Wortman, J.J. ; Lanford, W.A.

  • Author_Institution
    Air Products & Chem. Inc., Allentown, PA, USA
  • fYear
    1994
  • Firstpage
    100
  • Lastpage
    106
  • Abstract
    The effects of different levels of water, nitrogen, and methane contamination in an oxidation ambient during the production of ultra-thin rapid thermal oxides have been investigated. Careful characterization of the oxidation and argon anneal steps have been performed. High levels of water and hydrogen in these ambients were shown to be generated during the process. Nuclear reaction analysis indicates that the final water level in the oxide depends on the water level in both the oxidation ambient and post-oxidation ambient. Increasing nitrogen concentrations in the oxidation ambient resulted in increased interface trap densities and the frequency of low field breakdown. Initial studies of methane in the oxidation ambient show that it also plays a similar role in oxide degradation
  • Keywords
    semiconductor device reliability; argon anneal; contamination; device reliability; gate oxide growth; hydrogen; interface trap densities; interfacial effects; low field breakdown; methane; microcontaminants; nitrogen; nuclear reaction analysis; oxidation; ultra-thin rapid thermal oxides; water; Argon; Contamination; Hydrogen; Nitrogen; Nuclear power generation; Oxidation; Production; Rapid thermal annealing; Rapid thermal processing; Water pollution;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Advanced Semiconductor Manufacturing Conference and Workshop. 1994 IEEE/SEMI
  • Conference_Location
    Cambridge, MA
  • Print_ISBN
    0-7803-2053-0
  • Type

    conf

  • DOI
    10.1109/ASMC.1994.588208
  • Filename
    588208