Title :
Schottky-Gated Field Effect Transistors Based on GaN Nanowires
Author :
Blanchard, Paul ; Klein, Benjamin ; Keeling, David ; Bertness, Kris ; Harvey, Todd ; Mansfield, Lorelle ; Sanders, Aric ; Sanford, Norman
Author_Institution :
Nat. Inst. of Stand. & Technol., Boulder, CO
Abstract :
Because of their excellent crystalline quality, high surface-to-volume ratio, and direct bandgap, GaN nanowires (NWs) grown by molecular beam epitaxy (MBE) are a promising platform for the development of nanoscale devices for a variety of optoelectronic, electronic, sensing, and nanomechanical applications. Understanding and harnessing the field effect behavior of GaN NWs is a crucial step in the evolution of such devices. This paper investigates an alternative approach to GaN FETs by fabricating and testing top-gated metal-semiconductor FETs based on Si-doped GaN NWs grown by catalyst-free MBE. Improvements to the MESFET design and to the analysis of NW FET behavior are proposed.
Keywords :
III-V semiconductors; Schottky gate field effect transistors; elemental semiconductors; gallium compounds; nanowires; silicon; wide band gap semiconductors; GaN:Si; Schottky-gated field effect transistors; catalyst-free MBE; field effect behavior; metal-semiconductor field effect transistor; molecular beam epitaxy; nanowires; FETs; Gallium nitride; MESFETs; MOSFET circuits; Molecular beam epitaxial growth; Nanoscale devices; Nanowires; Schottky barriers; Testing; Threshold voltage;
Conference_Titel :
Device Research Conference, 2008
Conference_Location :
Santa Barbara, CA
Print_ISBN :
978-1-4244-1942-5
Electronic_ISBN :
1548-3770
DOI :
10.1109/DRC.2008.4800794
