World Scientific / Diodes / T. Mikado Electrotechnical Laboratory / P. Rice Evans A. S. / Nitride Semiconductor / Ge / Nichia Chemical Industries Ltd. / /
Country
Taiwan / Japan / Singapore / /
Currency
USD / / /
Facility
American Institute of Physics Downloaded / University of Tsukuba / Institute of Applied Physics / American Institute of Physics / Shizuoka University / University of California / Wuhan University / /
IndustryTerm
metalorganic chemical vapor deposition / optoelectronic devices / formation energy / incident energy / energy range / incident positron energy / carrier density increases / formation energy decreases / carrier density / metalorganic chemical vapor deposition technique using monoenergetic positron / carrier densities / energy / /
OperatingSystem
Fermi / /
Organization
Japan M. Sumiya Department of Electrical and Electronic Engineering / Shizuoka University / American Institute of Physics / University of Tsukuba / Institute of Applied Physics / University of California / Santa Barbara / Department of Physics / U.S. Securities and Exchange Commission / Department of Materials Engineering / Wuhan University / Wuhan / /
Person
M. Fanciulli / R. J. Graham / T. D. Moustakas / R. J. Molnar / J. D. Scanlon / /
ProvinceOrState
California / /
Technology
radiation / laser / semiconductors / Lasers / Blue Laser / spectroscopy / chemical vapor deposition / /
JOURNAL OF APPLIED PHYSICS VOLUME 90, NUMBER 1 1 JULY 2001