| 摘要 |
A method for producing a silicon single crystal, wherein, when a silicon single crystal is grown by the Czochralski method, the crystal is pulled with such conditions as present in a region defined by a boundary between a V-rich region and an N-region and a boundary between an N-region and an I-rich region in a defect distribution chart showing defect distribution which is plotted with D [mm] as abscissa and F/G [mm2/° C..min] as ordinate, wherein D represents a distance between center of the crystal and periphery of the crystal, F/G [mm/min] represents a pulling rate and G [° C./mm] represents an average temperature gradient along the crystal pulling axis direction in the temperature range of from the melting point of silicon to 1400° C., and time required for crystal temperature to pass through the temperature region of from 900° C. to 600° C. is controlled to be 700 minutes or shorter, and a silicon single crystal wafer grown by the Czochralski method, which is a silicon single crystal wafer having N-region for its entire plane, and does not generate OSFs by a single-step thermal oxidation treatment, but generates OSFs by a two-step thermal oxidation treatment. According to the method, a silicon single crystal wafer of an extremely low defect density, which has the N-region for the entire plane of the crystal, is obtained by the CZ, while maintaining high productivity.
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