Title :
Gate length scaling and threshold voltage control of double-gate MOSFETs
Author :
Chang, L. ; Tang, S. ; Tsu-Jae King ; Bokor, J. ; Chenming Hu
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., California Univ., Berkeley, CA, USA
Abstract :
In the nanoscale regime, the double-gate MOSFET can provide superior short-channel behavior. For this structure, device scaling issues are explored. Gate length scaling will be limited by the ability to control off-state leakage current due to quantum tunneling and thermionic emission between the source and drain as well as band-to-band tunneling between the body and drain. Lateral S/D doping abruptness requirements for gate length scaling are examined. V/sub T/ control will be challenging as a single gate material for both NMOS and PMOS devices cannot provide low yet symmetrical V/sub T/´s. CMOS integration will thus require dual gate workfunction tuning, channel doping, or asymmetrical double-gates to adjust V/sub T/. Advantages of using alternative channel materials to facilitate scaling are investigated.
Keywords :
MOSFET; doping profiles; leakage currents; nanotechnology; tunnelling; work function; CMOS integration; V/sub T/ control; asymmetrical double-gates; band-to-band tunneling; channel doping; channel materials; double-gate MOSFETs; dual gate workfunction tuning; gate length scaling; lateral S/D doping abruptness; nanoscale regime; off-state leakage current; quantum tunneling; short-channel behavior; thermionic emission; threshold voltage control; Doping; Double-gate FETs; Leakage current; Light scattering; MOS devices; MOSFETs; Thermionic emission; Threshold voltage; Tunneling; Voltage control;
Conference_Titel :
Electron Devices Meeting, 2000. IEDM '00. Technical Digest. International
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-7803-6438-4
DOI :
10.1109/IEDM.2000.904419
