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Browse Journals & Magazines > Electron Devices, IEEE Transa ...> Volume:37 Issue:8 Help

The effects of boron penetration on p+ polysilicon gated PMOS devices

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9 Author(s)
Pfiester, J.R. ; Motorola Inc., Austin, TX, USA ; Baker, F.K. ; Mele, Thomas C. ; Tseng, H.-H.
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The penetration of boron into and through the gate oxides of PMOS devices which employ p+ doped polysilicon gates is studied. Boron penetration results in large positive shifts in VFB , increased PMOS subthreshold slope and electron trapping rate, and decreased low-field mobility and interface trap density. Fluorine-related effects caused by BF2 implantations into the polysilicon gate are shown to result in PMOS threshold voltage instabilities. Inclusion of a phosphorus co-implant or TiSi2 salicide prior to gate implantation is shown to minimize this effect. The boron penetration phenomenon is modeled by a very shallow, fully-depleted p-type layer in the silicon substrate close to the SiO 2/Si interface

Published in:
Electron Devices, IEEE Transactions on  (Volume:37 ,  Issue: 8 )

Date of Publication: Aug 1990

Page(s):
1842 - 1851
ISSN :
0018-9383
INSPEC Accession Number:
3758126
Digital Object Identifier :
10.1109/16.57135
Product Type:
Journals & Magazines
Date of Current Version :
06 August 2002
Issue Date :
Aug 1990
Sponsored by :
IEEE Electron Devices Society

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