K. S. Hong S. P. / H. S. Yang S. P. / Research Corporation / /
Currency
USD / /
Facility
University of Georgia / Cambridge University / /
IndustryTerm
phonon self-energy / smallest positive solution / acoustic energy / energy cutoff / self-energy / unit energy / low energy / low-energy regime / nonradiative energy relaxation / low-energy electron / nanometer-scale mechanical systems / low-energy phonon / energy-dependent phonon self-energy / liquid-gas transition / lowest frequency solution / high energy / low-energy phonon spectrum / low-energy / energy splitting / energy width / nontrivial solution / energy relaxation / energy / /
MarketIndex
nm / /
OperatingSystem
DOS / Fermi / /
Organization
University of Georgia / Athens / National Science Foundation / Michael R. Geller Department of Physics and Astronomy / U.S. Securities and Exchange Commission / Cambridge University / New York / /
Person
Kelly R. Patton / Bill Dennis / Patrick Sprinkle / Michael Duncan / Mark Stockman / Michael R. Geller / W. M. Dennis / V / MICHAEL R. GELLER VII / Vadim Markel / Steve Lewis / Richard Meltzer / Ho-Soon Yang / David Leitner / Dan Murray / /
PHYSICAL REVIEW B 67, 155418 共2003兲 Phonons in a nanoparticle mechanically coupled to a substrate Kelly R. Patton and Michael R. Geller Department of Physics and Astronomy, University of Georgia, Athens, Georgia 306