Title :
CVD rhenium and PVD tantalum gate MOSFETs fabricated with a replacement technique
Author :
Pan, James ; Canaperi, Don ; Jammy, Rajarao ; Steen, Michelle ; Pellerin, John ; Lin, Ming-Ren
Author_Institution :
Adv. Micro Devices Inc./IBM Alliance, Yorktown Heights, NY, USA
Abstract :
This letter reports the first replacement metal gate MOSFETs with chemical vapor deposition (CVD) Rhenium (Re), and physical vapor deposition (PVD) Tantalum (Ta) as the stacked gate electrode. Transistors with PVD Ta electrode are fabricated with a replacement and a nonself-aligned method for comparison. Our data show that CVD Re can be implemented as a gate electrode material for MOS transistors. The CVD Re process has the advantage of reducing the plasma and radiation damages to the gate oxide. A thick layer of PVD Ta covering a thin layer of CVD Re forms the stacked gate structure and makes the metal chemical-mechanical polishing feasible.
Keywords :
MOSFET; chemical vapour deposition; electrodes; rhenium; tantalum; transistors; CVD Re process; CVD rhenium gate MOSFET; MOS transistors; PVD Ta electrode; PVD tantalum gate MOSFET; Re; Ta; chemical vapor deposition; gate electrode material; gate oxide; metal chemical-mechanical polishing; nonself-aligned method; physical vapor deposition; radiation damage; replacement metal gate MOSFET; replacement technique; stacked gate electrode; stacked gate structure; Annealing; Atherosclerosis; CMOS technology; Chemical vapor deposition; Dry etching; Electrodes; Implants; Jamming; MOSFETs; Plasma applications; 65; CVD; Chemical vapor deposition; MOSFETs; PVD; Re; Rhenium; Ta; Tantalum; metal gate; physical vapor deposition; replacement;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2004.838051
