Title :
A self-aligned elevated source/drain MOSFET
Author :
Pfiester, James R. ; Sivan, Richard D. ; Liaw, H. Ming ; Seelbach, Chris A. ; Gunderson, C.D.
Author_Institution :
Motorola Inc., Austin, TX, USA
Abstract :
An advanced elevated source/drain CMOS process which features self-aligned lightly-doped drain (LDD) and channel implantation is described. Unlike conventional elevated source/drain structures which employ separate polysilicon deposition steps to define the source/drain and gate electrodes, this new structure provides self-alignment of the LDD regions with the heavily doped channel regions to avoid dopant compensation effects. This process employs a single selective silicon deposition step to define both the epitaxial source/drain and polycrystalline gate regions. A single sidewall spacer is used for both LDD and salicide definition. Unlike conventional elevated source/drain CMOS processes, the final MOSFET structure provides self-alignment of the LDD regions with the heavily doped channel regions. Salicidation is performed after selective silicon deposition to provide low sheet resistances for the source/drain and gate regions. Small-geometry NMOS and PMOS devices have been fabricated which display excellent short channel behavior.<>
Keywords :
CMOS integrated circuits; insulated gate field effect transistors; semiconductor technology; LDD; NMOS devices; PMOS devices; channel implantation; elevated source/drain CMOS process; epitaxial source/drain; heavily doped channel regions; lightly-doped drain; low sheet resistances; polycrystalline gate regions; salicidation; salicide definition; self-aligned elevated source/drain MOSFET; self-alignment; short channel behavior; single selective Si decomposition step; single sidewall spacer; submicron gate lengths; CMOS process; Etching; FETs; Fabrication; MOS devices; MOSFET circuits; Silicon; Substrates; Surfaces; Voltage;
Journal_Title :
Electron Device Letters, IEEE
