• DocumentCode
    1090136
  • Title

    Heterojunction bipolar transistors using Si-Ge alloys

  • Author

    Iyer, Subramanian S. ; Patton, Gary L. ; Stork, Johannes M C ; Meyerson, Bernard S. ; Harame, David L.

  • Author_Institution
    IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
  • Volume
    36
  • Issue
    10
  • fYear
    1989
  • fDate
    10/1/1989 12:00:00 AM
  • Firstpage
    2043
  • Lastpage
    2064
  • Abstract
    Advanced epitaxial growth techniques permit the use of pseudomorphic Si1-xGex alloys in silicon technology. The smaller bandgap of these alloys allows for a variety of novel band-engineered structures that promise to enhance silicon-based technology significantly. The authors discuss the growth and properties of pseudomorphic Si1-xGex structures and then focus on their applications, especially the Si1-xGex -base heterojunction bipolar transistor (HBT). They show that HBTs in the Si1-xGex system allow for the decoupling of current gain and intrinsic base resistance. Such devices can be made by using a variety of techniques, including molecular-beam epitaxy and chemical vapor deposition. The authors describe the evolution of fabrication schemes for such HBTs and describe the DC and AC results obtained. They show that optimally designed HBTs coupled with advanced bipolar structures can provide performance leverage
  • Keywords
    Ge-Si alloys; heterojunction bipolar transistors; molecular beam epitaxial growth; semiconductor growth; semiconductor materials; vapour phase epitaxial growth; AC results; DC characteristics; HBT; band-engineered structures; chemical vapor deposition; current gain; epitaxial growth; heterojunction bipolar transistor; intrinsic base resistance; molecular-beam epitaxy; pseudomorphic Si1-xGex alloys; Capacitive sensors; Epitaxial growth; Germanium alloys; Heterojunction bipolar transistors; Lattices; Photonic band gap; Semiconductor materials; Silicon alloys; Substrates; Temperature distribution;
  • fLanguage
    English
  • Journal_Title
    Electron Devices, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9383
  • Type

    jour

  • DOI
    10.1109/16.40887
  • Filename
    40887