Title :
Design and experimental technology for 0.1-µm gate-length low-temperature operation FET´s
Author :
Sai-Halasz, George A. ; Wordeman, Matthew R. ; Kern, D.P. ; Ganin, E. ; Rishton, S. ; Zicherman, D.S. ; Schmid, H. ; Polcari, Michael R. ; Ng, H.Y. ; Restle, P.J. ; Chang, T.H.P. ; Dennard, Robert H.
Author_Institution :
IBM Thomas J. Watson Research Center, Yorktown Heights, NY
fDate :
10/1/1987 12:00:00 AM
Abstract :
The first device performance results are presented from experiments designed to assess FET technology feasibility in the 0.1-µm gate-length regime. Low-temperature device design considerations for these dimensions lead to a 0.15-V threshold and 0.6-V power supply, with a forward-biased substrate. Self-aligned and almost fully scaled devices and simple circuits were fabricated by direct-write electron-beam lithography at all levels, with gate lengths down to 0.07 µm. Measured device characteristics yielded over 750-mS/mm transconductance, which is the highest value obtained to date in Si FET´s.
Keywords :
Degradation; FET integrated circuits; Insulation; Integrated circuit measurements; Integrated circuit yield; Power supplies; Temperature; Transconductance; Tunneling; Voltage;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/EDL.1987.26695
