Title :
Mesoscopic homogenization of semi-insulating GaAs by two-step post growth annealing
Author :
Hoffmann, B. ; Jurisch, M. ; Kissinger, G. ; Köhler, A. ; Kühnel, G. ; Reinhold, T. ; Siegel, W. ; Weinert, B.
Author_Institution :
Freiberger Compound Mater. GmbH, Germany
fDate :
29 Apr-3 May 1996
Abstract :
Mesoscopic homogenization of the electrical properties of s.i. LEC-GaAs is commonly realized by thermal treatment of the crystals including the steps of dissolution of arsenic precipitates, homogenization of excess As and re-precipitation by creating a controlled supersaturation. Caused by the inhomogeneous distribution of dislocations and the corresponding cellular structure along and across LEG-grown crystals a proper choice of the time-temperature program is necessary to minimize fluctuations of mesoscopic homogeneity. A modified two-step ingot annealing process is demonstrated to ensure the homogeneous distribution of mesoscopic homogeneity. Wafer annealing at different arsenic pressures is shown to control stoichiometry over the whole standard thickness
Keywords :
III-V semiconductors; annealing; dislocation structure; electrical conductivity; gallium arsenide; precipitation; stoichiometry; GaAs; control stoichiometry; controlled supersaturation; dislocations; dissolution; electrical properties; excess As; fluctuations; homogenization; mesoscopic homogenization; modified two-step ingot annealing process; re-precipitation; semi-insulating GaAs; thermal treatment; two-step post growth annealing; Annealing; Conductivity; Crystalline materials; Crystals; Gallium arsenide; Physics; Scattering; Semiconductor materials; Spatial resolution; Temperature;
Conference_Titel :
Semiconducting and Semi-Insulating Materials Conference, 1996. IEEE
Conference_Location :
Toulouse
Print_ISBN :
0-7803-3179-6
DOI :
10.1109/SIM.1996.570879
