Title :
Ion-induced charge-collection transients in p-channel AlGaSb/InGaSb field-effect transistors
Author :
Warner, Jeffrey H. ; McMorrow, Dale P. ; Buchner, Steffen ; Boos, J. Brad ; Bennett, Brian R. ; Cress, Cory D. ; Champlain, James G. ; Roche, Nicolas ; Paillet, P. ; Gaillardin, M.
Author_Institution :
Naval Res. Lab., Washington, DC, USA
Abstract :
The first ion-induced, time-resolved charge-collection measurements for p-channel AlGaSb/InGaSb field-effect transistors are reported. The transient response reveals two distinct decay regions; a fast initial decay (<; 1 ns) followed by a slower decay (> 10 ns). The slow decay is associated with charge enhancement processes, which are explained by electron trapping and de-trapping via deep-level traps located in the AlGaSb barrier material. Charge enhancement effects are reported for different drain and gate bias conditions, and it is found that charge-enhancement effects are suppressed when the gate bias is increased toward depletion. The effects of the bias on the transient response are presented and discussed.
Keywords :
III-V semiconductors; aluminium compounds; deep levels; electron mobility; electron transport theory; field effect transistors; gallium compounds; indium compounds; transient response; AlGaSb-InGaSb; barrier material; charge enhancement effects; charge-collection measurements; charge-enhancement effects; deep-level traps; drain bias conditions; electron trapping; gate bias conditions; p-channel field-effect transistors; slow decay; transient response; Calcium; Electron traps; Logic gates; Materials; Radiation effects; Transient analysis; AlGaSb; FET; GaAs; HEMT; HFET; InAs; InGaSb; MESFET; SET cross section; Schottky barrier gate; Single Event Transients; charge collection; charge enhancement; electron trapping; heavy ions; protons; quantum well;
Conference_Titel :
Radiation and Its Effects on Components and Systems (RADECS), 2013 14th European Conference on
Conference_Location :
Oxford
DOI :
10.1109/RADECS.2013.6937354
