Springer-Verlag / Fairfax / New York / Pittsburgh / Stuttgart / /
Company
Gaussian Inc. / Cs CO C / done using GAUSSIAN-98 / /
Currency
pence / USD / / /
Facility
George Mason University / /
IndustryTerm
lowest-energy isomer / electron exchange energy / lowest-energy structure / lowest-energy isomers / lowest-energy structures / free energy / energy gap / local and nonlocal correlation energy functionals / Energy stability pattern / free-energy / energy surfaces / energy curve / energy barriers / energy gap decreases / energy lays / Low-energy stable isomers / chemical usages / dissociation energy / energy difference / zero-point energy correction / cohesive energy / energy / higher-energy isomers / low-energy isomers / minimum energy isomer geometry / carbon-chemical engineering / cluster binding energy / exchange energy / internal energy / energy stability / electron correlation energy / reported energy / point / higher energy / lowest total energy / lowest-energy geometries / energy surface / /
Movie
D. V / /
MusicGroup
Ph.D. / /
OperatingSystem
Fermi / /
Organization
National Science Foundation / U.S. Securities and Exchange Commission / Federal Communications Commission / George Mason University / Estela Blaisten-Barojas* School of Computational Sciences / /
Person
Chang-Hong Chien / B. N. Cox / E. Blaisten-Barojas / P. S. Bagus / Estela Blaisten-Barojas / J. W. McCaffrey / Mark R. Pederson / Van Nostrad Reinhold / C. J. Nelin / D. V. Porezag / D. Papaconstantopoulos / C. W. Bauschlicher / Jr. / C. H. Chien / J. R. Anderson / Jeffrey W. Mirick / T. P. Martin / M. R. Pederson / K. A. Jackson / / /