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Min has been engaged in the study of crystal defects, crystal growth, and the physical properties of crystals for a long time. During the years '60-'82, he and his colleagues developed the etching method for revealing dislocation lines and networks, determined the type and configurations of dislocations, and the dislocation structures on sub-grain boundary in b.c.c. crystals. Cooperating with the others, they observed, for the first time, the birefringence image of end on screw dislocations and gave it a detailed explanation according to the anisotropy of both elastic and photoelastic properties of crystals. The study of crystal defects won the second Award of National Natural Science in 1982.
Min described the defect machanism of crystal growth in an unified manner based on the atomic configuration around defects and the intrinsic properties of defects. During the years '86 to '95, he generalized the screw dislocation mechanism to the growth mechanism assisted by any-type of dislocation, proposed the stacking fault-, twin lamella-, re-entrance corner-assisted growth mechanism and the cooperative growth mechanism of re entrance corners with rough surface; these defect mechanisms of growth have been proved experimentally by Bennema's group recently.
Min described the defect machanism of crystal growth in an unified manner based on the atomic configuration around defects and the intrinsic properties of defects. During the years '86 to '95, he generalized the screw dislocation mechanism to the growth mechanism assisted by any-type of dislocation, proposed the stacking fault-, twin lamella-, re-entrance corner-assisted growth mechanism and the cooperative growth mechanism of re entrance corners with rough surface; these defect mechanisms of growth have been proved experimentally by Bennema's group recently.
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