do you have the clarkson gene?
Liya L. Regel
Research Professor
320 CAMP
Clarkson University
PO Box 5720
Potsdam, NY 13699-5720
Phone: 315-268-7672
Fax: 315-268-7600
E-mail: regel@clarkson.edu
Website
Educational Background
Ph.D. in Solid State Physics, Ioffe Physico-Technical Institute, St. Petersburg
Candidate in Physics and Mathematical Science, Institute of Semiconductors, USSR Academy of Science in Novosibirsk and State University in Irkutsk (1972)
B.S. in Patents and Management of Scientific and Technical Information, Social University of Riga (1967)
B.S. in Physics, Novosibirsk State University (1965)
Research Interests
Materials science and its influence on properties and device performance. Although most of her work has been concerned with semiconductors, she has also worked on high temperature superconductors, metal alloys, and magneto-semiconductor materials. Techniques have included directional solidification, solution crystal growth, vacuum evaporation, chemical vapor deposition and heavy ion implantation, under conditions ranging from orbiting spacecraft to centrifugation. Current research is on InSb solidification, flow visualization and diamond film deposition on Clarkson's large centrifuge, and the influence of perturbations on eutectic microstructure.
320 CAMP
Clarkson University
PO Box 5720
Potsdam, NY 13699-5720
Phone: 315-268-7672
Fax: 315-268-7600
E-mail: regel@clarkson.edu
Website
Educational Background
Ph.D. in Solid State Physics, Ioffe Physico-Technical Institute, St. Petersburg
Candidate in Physics and Mathematical Science, Institute of Semiconductors, USSR Academy of Science in Novosibirsk and State University in Irkutsk (1972)
B.S. in Patents and Management of Scientific and Technical Information, Social University of Riga (1967)
B.S. in Physics, Novosibirsk State University (1965)
Research Interests
Materials science and its influence on properties and device performance. Although most of her work has been concerned with semiconductors, she has also worked on high temperature superconductors, metal alloys, and magneto-semiconductor materials. Techniques have included directional solidification, solution crystal growth, vacuum evaporation, chemical vapor deposition and heavy ion implantation, under conditions ranging from orbiting spacecraft to centrifugation. Current research is on InSb solidification, flow visualization and diamond film deposition on Clarkson's large centrifuge, and the influence of perturbations on eutectic microstructure.