DocumentCode
1755014
Title
On Device Architectures, Subthreshold Swing, and Power Consumption of the Piezoelectric Field-Effect Transistor ( 
-FET)
Author
Hueting, Raymond J. E. ; Van Hemert, Tom ; Kaleli, Buket ; Wolters, Rob A. M. ; Schmitz, Jurriaan
Author_Institution
MESA+ Inst. for Nanotechnol., Univ. of Twente, Enschede, Netherlands
Volume
3
Issue
3
fYear
2015
fDate
42125
Firstpage
149
Lastpage
157
Abstract
This paper describes the potential of tunable strain in field-effect transistors to boost performance of digital logic. Voltage-controlled strain can be imposed on a semiconductor body by the integration of a piezoelectric material improving transistor performance. In this paper, we derive the relations governing the subthreshold swing in such devices to improve the understanding. Using these relations and considering the mechanical and technological boundary conditions, we discuss possible device architectures that employ this principle. Further, we review the recently published experimental and modeling results of this device, and give analytical estimates of the power consumption.
Keywords
field effect transistors; piezoelectric devices; piezoelectric materials; power consumption; semiconductor device models; π-FET; digital logic; mechanical boundary condition; piezoelectric field-effect transistor; piezoelectric material; power consumption; subthreshold swing; technological boundary condition; tunable strain potential; voltage-controlled strain; Field effect transistors; Logic gates; Metals; Performance evaluation; Silicon; Strain; CMOS; MOSFET; Piezoelectric effect; piezoelectric effect; steep-subthreshold device; subthermal device;
fLanguage
English
Journal_Title
Electron Devices Society, IEEE Journal of the
Publisher
ieee
ISSN
2168-6734
Type
jour
DOI
10.1109/JEDS.2015.2409303
Filename
7055254
Link To Document