Title :
Enhanced high-frequency performance in a GaAs, self-aligned, n-JFET using a carbon buried p-implant
Author :
Zolper, J.C. ; Shenvin, M.E. ; Baca, A.G. ; Shul, R.J. ; Klem, J.F. ; Hietala, Vincent M.
Author_Institution :
Sandia Nat. Labs., Albuquerque, NM, USA
Abstract :
C ion implantation has been employed, for the first time, to form the buried p-layer in GaAs, self-aligned, ion implanted JFETs. Comparable DC performance was seen for JFETs with C or Mg implants; however, C-backside JFETs showed superior high-frequency performance. High dose C-backside devices had a fT of 28.3 GHz and a fmax of 43.2 GHz for a 0.5 μm gate length that were 28% and 46% higher, respectively, than comparable Mg-implanted JFETs. This enhancement is a result of the lower C/sub gs/ in the C-backside device resulting from he inherently low activation of the implanted C below the channel while the C still effectively compensated the tail of the Si-channel implant. This approach relaxes the trade-off between optimizing the DC and the AC performance for the buried p-implant in GaAs JFETs and MESFET´s.
Keywords :
III-V semiconductors; carbon; gallium arsenide; ion implantation; junction gate field effect transistors; microwave field effect transistors; 0.5 micron; 28.3 GHz; 43.2 GHz; AC performance; C ion implantation; C-backside devices; DC performance; GaAs self-aligned n-JFET; GaAs:C; activation; buried p-layer; high-frequency performance; Capacitance; Carrier confinement; Cutoff frequency; Degradation; Gallium arsenide; Implants; Ion implantation; JFETs; MESFETs; Tail;
Journal_Title :
Electron Device Letters, IEEE
