Title :
High quality InP substrates grown by the VCZ method
Author :
Yabuhara, Y. ; Oida, K. ; Hosokawa, Y. ; Nakai, R. ; Aoyagi, K. ; Iguchi, Y. ; Iwasaki, T.
Author_Institution :
Semicond. Div., Sumitomo Electr. Ind. Ltd., Hyogo, Japan
Abstract :
We have successfully developed 220 mm-long 2-inch diameter crystals doped with S and 200 mm-long 3-inch diameter crystals doped with S or Fe by the VCZ method. Temperature gradients above the InP melt and in the melt were controlled by multi-zone heater to suppress the twin formation during the crystal growth. The low EPD area (EPD⩽500 cm-2) of S-doped wafers could be more than 13 cm2 for 2-inch diameter crystal and 22 cm2 for 3-inch diameter crystal throughout the ingot. The average EPD of 3-inch diameter wafers doped with Fe could be reduced to lower than 7×103 cm -2. The residual strains detected by infrared polarization microscope and quantitative photoelastic characterization could be reduced by the VCZ method. The results of double crystal x-ray diffraction measurement also indicate the improvement of crystal perfection of the crystal grown by the VCZ method
Keywords :
III-V semiconductors; crystal growth from melt; crystal structure; indium compounds; internal stresses; iron; optical microscopy; photoelasticity; semiconductor growth; substrates; sulphur; twin boundaries; zone melting; 2 in; 200 mm; 220 mm; 3 in; Fe doped crystal; InP melt; InP:Fe; InP:S; S-doped wafers; VCZ method; crystal growth; crystal perfection; crystals; double crystal x-ray diffraction; high quality InP substrates; infrared polarization microscopy; low EPD area; multi-zone heater; photoelastic characterization; residual strains; temperature gradients; twin formation; Capacitive sensors; Crystals; Indium phosphide; Infrared detectors; Iron; Microscopy; Photoelasticity; Polarization; Temperature control; X-ray diffraction;
Conference_Titel :
Indium Phosphide and Related Materials, 1996. IPRM '96., Eighth International Conference on
Conference_Location :
Schwabisch-Gmund
Print_ISBN :
0-7803-3283-0
DOI :
10.1109/ICIPRM.1996.491927
