Gate-All-Around Silicon Nanowire Field Effect Transistor Behavior at High Gate Voltages
Paper i proceeding, 2024
This paper presents an observance of a novel phenomenon in gate-all-around field effect transistor (GAAFET) structures with a 1D active semiconducting channel. In this work, a small-diameter silicon nanowire is modeled, and its behavior is studied. The GAAFET device is modeled using an ensemble Monte Carlo (EMC) simulator in which the electrostatic potential landscape in the nanowire is solved self-consistently using the Gauss Law in integral form. The model captures an unexpected operation region. It is observed that after certain voltage values of gate-to-source voltage,Vgs, the device shows a negative differential resistance (NDR), with the current Ids decreasing while increasing Vgs
ensemble Monte Carlo
electron-phonon scattering
field-effect-transistor
silicon nanowire
cylindrical gate-all-around transistors
negative differential resistance
Författare
Reza Nekovei
Frank H. Dotterweich College of Engineering
Daryoush Shiri
Chalmers, Mikroteknologi och nanovetenskap, Kvantteknologi
Amit Verma
Frank H. Dotterweich College of Engineering
Proceedings of the 2024 IEEE 14th International Conference "Nanomaterials: Applications and Properties", NAP 2024
9798350380125 (ISBN)
14th IEEE International Conference "Nanomaterials: Applications and Properties", NAP 2024
Riga, Latvia,
Riga, Latvia,
Ämneskategorier (SSIF 2011)
Annan elektroteknik och elektronik
Den kondenserade materiens fysik
DOI
10.1109/NAP62956.2024.10739711