• Title of article

    Diffusion barrier cladding in Si/SiGe resonant interband tunneling diodes and their patterned growth on PMOS source/drain regions

  • Author/Authors

    R.، Lake, نويسنده , , Jin، Niu نويسنده , , Chung، Sung-Yong نويسنده , , A.T.، Rice, نويسنده , , P.R.، Berger, نويسنده , , P.E.، Thompson, نويسنده , , C.، Rivas, نويسنده , , S.، Sudirgo, نويسنده , , J.J.، Kempisty, نويسنده , , B.، Curanovic, نويسنده , , S.L.، Rommel, نويسنده , , K.D.، Hirschman, نويسنده , , S.K.، Kurinec, نويسنده , , P.H.، Chi, نويسنده , , D.S.، Simons, نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2003
  • Pages
    -1875
  • From page
    1876
  • To page
    0
  • Abstract
    Si/SiGe resonant interband tunnel diodes (RITDs) employing (delta)-doping spikes that demonstrate negative differential resistance (NDR) at room temperature are presented. Efforts have focused on improving the tunnel diode peak-to-valley current ratio (PVCR) figure-of-merit, as well as addressing issues of manufacturability and CMOS integration. Thin SiGe layers sandwiching the B (delta)-doping spike used to suppress B out-diffusion are discussed. A room-temperature PVCR of 3.6 was measured with a peak current density of 0.3 kA/cm/sup 2/. Results clearly show that by introducing SiGe layers to clad the B (delta)-doping layer, B diffusion is suppressed during post-growth annealing, which raises the thermal budget. A higher RTA temperature appears to be more effective in reducing defects and results in a lower valley current and higher PVCR. RITDs grown by selective area molecular beam epitaxy (MBE) have been realized inside of low-temperature oxide openings, with performance comparable with RITDs grown on bulk substrates.
  • Keywords
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  • Journal title
    IEEE TRANSACTIONS ON ELECTRON DEVICES
  • Serial Year
    2003
  • Journal title
    IEEE TRANSACTIONS ON ELECTRON DEVICES
  • Record number

    95876