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- Title
Vertical tunneling FET with Ge/Si doping-less heterojunction, a high-performance switch for digital applications.
- Authors
Cherik, Iman Chahardah; Mohammadi, Saeed; Maity, Subir Kumar
- Abstract
A vertical tunneling field effect transistor composed of a doping-less tunneling heterojunction and an n+-drain is presented in this paper. Two highly-doped p+ silicon layers are devised to induce holes in an intrinsic source region. Due to employing a double gate configuration and Hafnium in the gate oxide, our proposed structure has an optimized electrostatic control over the channel. We have performed all the numerical simulations using Silvaco ATLAS, calibrated to the verified data of a device with the similar working principle. The impact of the wide range of non-idealities, such as trap-assisted tunneling, interface trap charges, and ambipolar conduction, is thoroughly investigated. We have also evaluated the impact of negative capacitance material to further improve our device switching characteristics. Introducing both n-channel and p-channel devices, and employing them into a 6T SRAM circuit, we have investigated its performance in terms of parameters like read and write SNM. The FOMs such as Ion = 34.4 µA/µm, Ion/Ioff = 7.17 × 107, and fT = 123 GHz show that our proposed device is a notable candidate for both DC and RF applications.
- Subjects
TUNNEL field-effect transistors; FIELD-effect transistors; HETEROJUNCTIONS; SILICON alloys; HAFNIUM oxide; INDIUM gallium zinc oxide
- Publication
Scientific Reports, 2023, Vol 13, Issue 1, p1
- ISSN
2045-2322
- Publication type
Article
- DOI
10.1038/s41598-023-44096-5