Title :
Ion-Induced Charge-Collection Transients in p-Channel AlGaSb/InGaSb Heterojunction Field-Effect Transistors
Author :
Warner, Jeffrey H. ; McMorrow, Dale ; Buchner, Steffen ; Boos, J. Brad ; Bennett, Brian R. ; Cress, Cory D. ; Champlain, James G. ; Roche, Nicholas J.-H ; Paillet, P. ; Gaillardin, M.
Author_Institution :
U.S. Naval Res. Lab., Washington, DC, USA
Abstract :
Ion-induced, time-resolved charge-collection measurements for p-channel AlGaSb/InGaSb field-effect transistors are reported for a range of gate and drain bias conditions. The transient response reveals two distinct contributions: a faster initial response (<;1 ns) followed by a slower, >10 ns, relaxation. The slower contribution depends sensitively on the applied gate bias, is suppressed when the gate is made more positive toward depletion, and is identified with an enhanced source-drain current in which more charge is collected than is deposited by the ion. A model consistent with the experimental measurements suggests that the dynamics of the enhancement processes are associated with the trapping and detrapping dynamics of electrons in the AlGaSb barrier materials.
Keywords :
aluminium compounds; field effect transistors; indium compounds; transient response; AlGaSb-InGaSb; drain bias condition; electron detrapping dynamics; electron trapping dynamics; enhanced source-drain current; gate bias condition; ion-induced charge-collection transient response; ion-induced time-resolved charge-collection measurement; p-channel heterojunction field-effect transistor; Electron traps; HEMTs; Logic gates; Materials; Radiation effects; Transient analysis; AlGaSb; GaAs; InAs; InGaSb; Schottky barrier gate; charge collection; charge enhancement; electron trapping; field effect transistor (FET); heavy ions; heterojunction field-effect transistor (HFET); high-electron mobility transistor (HEMT); metal–semiconductor field effect transistor (MESFET); protons; quantum well; single-electron transistor (SET) cross section; single-event transients;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2014.2307490
