Title :
Heterodimensional technology for ultra low power electronics
Author :
Peatman, W.C.B. ; Hurt, M. ; Tsai, R. ; Ytterdal, T. ; Park, H. ; Gonzales, J. ; Shur, M.
Author_Institution :
Dept. of Electr. Eng., Virginia Univ., Charlottesville, VA, USA
Abstract :
We describe new heterodimensional technology suitable for ultra low power applications. This technology uses Schottky barrier contacts between three-dimensional metal and two-dimensional electron gas. The low power performance is due to the following: the small capacitance of the 2D-3D junction; the concentration of the depletion layer electric field streamlines in the active channel; suppression of parasitic resistance; small leakage current; and, most of all, due to the total elimination of the narrow channel effect which allows us to scale the device width to submicron dimensions. We present, compare, and discuss measured and simulated I-V and C-V characteristics for the 2D-3D Schottky diode, 2D MESFET and Schottky Gated 2D-3D RTT
Keywords :
Schottky barriers; Schottky diodes; Schottky gate field effect transistors; capacitance; integrated circuit technology; leakage currents; monolithic integrated circuits; resonant tunnelling transistors; two-dimensional electron gas; C-V characteristics; I-V characteristics; MESFET; Schottky barrier contacts; Schottky diode; Schottky gated RTT; depletion layer electric field; heterodimensional technology; junction capacitance; leakage current; narrow channel effect elimination; parasitic resistance suppression; three-dimensional metal; two-dimensional electron gas; ultra low power electronics; Capacitance-voltage characteristics; Electric resistance; Electrical resistance measurement; Electrons; Leakage current; Low power electronics; MESFETs; Parasitic capacitance; Schottky barriers; Schottky diodes;
Conference_Titel :
Signals, Systems, and Electronics, 1995. ISSSE '95, Proceedings., 1995 URSI International Symposium on
Conference_Location :
San Francisco
Print_ISBN :
0-7803-2516-8
DOI :
10.1109/ISSSE.1995.497958
