Title :
An Investigation of Deep Levels in GaAs FETs by Selective De-Excitation of the Deep Donor Level EL2
Author :
Madden, J. ; Brozel, M.R. ; Peaker, A.R. ; Ashcroft, G.
Author_Institution :
Department of Electrical Engineering and Electronics and the Centre for Electronic Materials, University of Manchester Institute of Science & Technology, P. O. Box 88, Manchester. M60 1QD. England.
Abstract :
A modified photo-FET technique is presented where the Idss photoresponse before and after EL2 quenching is measured. The technique has been applied both to ion-implanted FETs and to VTPE grown devices with buffer thicknesses ranging from 0.7 ¿m to 3 pm grown on chroinum-doped substrates. The removal of the EL2 contribution to the photoresponse leads to a modification of the charge states of the remaining deep levels whose presence can be detected by examining the difference between the quenched and unquenched Idss spectra. In the case of VPE FETs, a minimum buffer thickness to avoid chromium diffusion problems can be established.
Keywords :
Conductivity; Decision support systems; Energy states; FETs; Gallium arsenide; Ionization; Light sources; Materials science and technology; Substrates; Temperature;
Conference_Titel :
Solid State Device Research Conference, 1987. ESSDERC '87. 17th European
Conference_Location :
Bologna, Italy
