Title :
Neutron transmuted magnetic Czochralski grown silicon wafer for power device
Author :
Takasu, Sinichiro ; Homma, Kazunori ; Toji, Eiichi ; Kashima, Kazuhiko ; Ohwa, Michihiro ; Takahashi, Shoichi
Author_Institution :
Toshiba Ceramics Co. Ltd., Kanagawa, Japan
Abstract :
The authors examine the preparation of low-cost Si wafers for power devices with diameters of 125 mm and above, using a transversal-superconductive-magnetic-field Czochralski pulling growth method and neutron transmuted doping. The puller has shown a very high pulling rate and low cost. The oxygen concentration in the growing crystal can be kept below 5*10/sup 17/ atoms/cm/sup 3/, as this level of oxygen concentration does not affect the recovery of electrical characteristics and actually makes the silicon wafer more resilient to the high-temperature device production processes. Dislocation loop formation in crystals densely irradiated by fast neutrons and then subjected to high-temperature heat treatment is caused by small grains with a direction slightly different to that of the grand mass crystals. Methods for preventing the formation of loops are described.<>
Keywords :
crystal growth from melt; dislocation loops; elemental semiconductors; neutron effects; power transistors; semiconductor device manufacture; semiconductor doping; semiconductor growth; silicon; O/sub 2/; Si wafers; dislocation loops; electrical characteristics; grand mass crystals; heat treatment; high-temperature device production; neutron transmuted doping; power semiconductors; pulling rate; semiconductor growth; transversal-superconductive-magnetic-field Czochralski pulling growth method; Ceramics; Conductivity; Costs; Crystals; Glass; Magnetic devices; Neutrons; Production; Silicon; Very large scale integration;
Conference_Titel :
Power Electronics Specialists Conference, 1988. PESC '88 Record., 19th Annual IEEE
Conference_Location :
Kyoto, Japan
DOI :
10.1109/PESC.1988.18280
