Title :
Hydrogen-Terminated Diamond Field-Effect Transistors With Cutoff Frequency of 53 GHz
Author :
Russell, Stephen A O ; Sharabi, Salah ; Tallaire, Alex ; Moran, David A J
Author_Institution :
Sch. of Eng., Univ. of Glasgow, Glasgow, UK
Abstract :
Homoepitaxial diamond has been used to demonstrate the RF performance of 50-nm gate length hydrogen-terminated diamond field-effect transistors. An extrinsic cutoff frequency of 53 GHz is achieved which we believe to be the highest value reported for a diamond-based transistor. The generation of an RF small signal equivalent circuit is used to extract device elements to better understand variation between intrinsic and extrinsic operation. An intrinsic cutoff frequency of 90 GHz is extracted through this process, verifying the requirement to minimize access resistance to maximize the potential high-frequency performance of this technology.
Keywords :
diamond; field effect transistors; hydrogen; millimetre wave field effect transistors; wide band gap semiconductors; C:H; RF performance; RF small signal equivalent circuit; device elements; extrinsic operation; frequency 53 GHz; frequency 90 GHz; homoepitaxial diamond; hydrogen-terminated diamond field-effect transistors; intrinsic operation; size 50 nm; Diamond-like carbon; Electrical resistance measurement; Equivalent circuits; Logic gates; Performance evaluation; Radio frequency; Resistance; Field-effect transistor (FET); RF performance; homoepitaxial diamond; hydrogen terminated;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2012.2210020
