Title
Gallium nitride tunneling field-effect transistors exploiting polarization fields
Date Issued
18 February 2020
Access level
open access
Resource Type
journal article
Author(s)
Chaney A.
Turski H.
Nomoto K.
Hu Z.
Rouvimov S.
Orlova T.
Fay P.
Seabaugh A.
Xing H.G.
Jena D.
Universidad de Cornell
Publisher(s)
American Institute of Physics Inc.
Abstract
This report showcases a vertical tunnel field effect transistor (TFET) fabricated from a GaN/InGaN heterostructure and compares it to a gated vertical GaN p-n diode. By including a thin InGaN layer, the interband tunneling in the TFET is increased compared to the gated homojunction diode. This leads to an increased drain current of 57 μA/μm and a reduced subthreshold swing of 102 mV/dec, from 240 mV/dec. However, trap assisted tunneling prevents devices from realizing subthreshold slopes below the Boltzmann limit of 60 mV/dec. Nevertheless, this work shows the capability of tunnel field effect transistors to be realized in GaN by taking advantage of the spontaneous and piezoelectric polarization in the III-N material system.
Volume
116
Issue
7
Language
English
OCDE Knowledge area
Física y Astronomía
Scopus EID
2-s2.0-85079740173
Source
Applied Physics Letters
ISSN of the container
00036951
Sponsor(s)
We acknowledge the support from the Center for Low Energy Systems Technology (LEAST), one of the six SRC STARnet Centers, sponsored by MARCO and DARPA. This work was performed in part at the Cornell NanoScale Facility, a member of the National Nanotechnology Coordinated Infrastructure (NNCI), which is supported by the National Science Foundation (Grant No. NNCI-1542081). Work was also carried out at the Institute of High Pressure Physics which is supported by the Homing Project No. POIR.04.04.00-00-5D5B/18-00 of the Foundation for Polish Science co-financed by the European Union under the European Regional Development Fund.
Sources of information:
Directorio de Producción Científica
Scopus