Interface Traps in InAs Nanowire Tunnel FETs and MOSFETs—Part II: Comparative Analysis and Trap-Induced Variability

Author

Esseni, David ; Pala, Marco G.

Author_Institution

Dipt. di Ing. Elettr., Gestionale e Meccanica, Univ. of Udine, Udine, Italy

Volume

60

Issue

9

fYear

2013

fDate

Sept. 2013

Firstpage

2802

Lastpage

2807

Abstract

This paper extends the analysis of the companion paper by presenting a comparative analysis of the impact of interface traps on the I-V characteristics of InAs nanowire tunnel FETs or MOSFETs with a spatially random distribution of traps. The physical mechanisms behind the effects of traps in either tunnel FETs or MOSFETs are compared and, furthermore, traps are also investigated as a possible source of device variability. Our results show that, in MOSFETs, an aggressive oxide thickness scaling can effectively counteract the degradation of the subthreshold slope (SS) possibly produced by interface traps. Tunnel FETs are instead more vulnerable to traps, which are probably the main hindrance to the experimental realization of tunnel FETs with an SS better than 60 mV/decade.

Keywords

III-V semiconductors; MOSFET; indium compounds; interface states; nanowires; tunnel transistors; I-V characteristics; InAs; MOSFET; aggressive oxide thickness scaling; device variability; interface traps; nanowire tunnel FET; subthreshold slope; trap-induced variability; Capacitance; Logic gates; MOSFET; Nanoscale devices; Tunneling; MOSFET; NEGF; nanowire; phonon scattering; quantum transport; traps; tunnel-FET;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/TED.2013.2274197

Filename

6575101