Title :
Performance of AlGaSb/InAs TFETs With Gate Electric Field and Tunneling Direction Aligned
Author :
Lu, Yeqing ; Zhou, Guangle ; Li, Rui ; Liu, Qingmin ; Zhang, Qin ; Vasen, Timothy ; Chae, Soo Doo ; Kosel, Thomas ; Wistey, Mark ; Xing, Huili ; Seabaugh, Alan ; Fay, Patrick
Author_Institution :
Dept. of Electr. Eng., Univ. of Notre Dame, Notre Dame, IN, USA
fDate :
5/1/2012 12:00:00 AM
Abstract :
The current-voltage characteristics of AlGaSb/InAs staggered-gap n-channel tunnel field-effect transistors are simulated in a geometry in which the gate electric field is oriented to be in the same direction as the tunnel junction internal field. It is shown that this geometry can also support low-voltage operation and low subthreshold swing. In the absence of a simple analytic theory for this transistor to allow direct analytic comparisons, two-dimensional numerical simulations are used to explore the electrostatic and geometrical design considerations including dependence on gate length, gate underlap, gate undercut, and equivalent oxide thickness.
Keywords :
aluminium compounds; antimony compounds; arsenic compounds; electrostatics; field effect transistors; gallium compounds; geometry; indium compounds; low-power electronics; tunnel transistors; tunnelling; AlGaSb-InAs; TFET; current-voltage characteristics; direct analytic comparisons; electrostatic design; equivalent oxide thickness; gate electric field; gate length; gate undercut; gate underlap; geometrical design; geometry; low subthreshold swing; low-voltage operation; simple analytic theory; staggered-gap n-channel tunnel field-effect transistors; tunnel junction internal field; tunneling direction; two-dimensional numerical simulations; Electrostatics; Geometry; Junctions; Logic gates; Semiconductor process modeling; Transistors; Tunneling; Heterojunction; steep subthreshold swing; tunnel field-effect transistors (TFET); tunneling;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2012.2186554
