USA Jerome K. Percus Courant Institute of Mathematical Sciences / New York University / /
IndustryTerm
energy levels / kinetic energy tensor density / kinetic energy density t共x / kinetic energy densities / ground energy level / symmetrized kinetic energy density / lower energy bounds / energy level / unnecessary computing effort / ground state energy level / symmetrized kinetic energy density definition / distinct systems / energy minimizing scheme / probable energy levels / state energy / kinetic energy density / ground state energy / bound energy levels / interaction energy / Lower energy / energy landscape concentration / important tool / computational tools / interactionless kinetic energy / energy bounding principle / energy / lowest energy levels / lower bound energy / energy expectation / semianalytic tools / reference systems / symmetric kinetic energy density operator / kinetic energy / harmonic oscillator systems / model systems / decent lower energy / symmetric kinetic energy density / probable energy / fermion ground state energy / lower energy bound / transformed kinetic energy density / kinetic energy part / model reference systems / application to multispecies systems / target systems / kinetic energy density term / energy subject / physical systems / energy distribution / /
OperatingSystem
Fermi / /
Organization
New York University / Mercer Street and Physics Department / Physics Department / U.S. Securities and Exchange Commission / New York University / New York / USA Jerome K. Percus Courant Institute of Mathematical Sciences / /
Person
Jerome K. Percus / F. J. Rogers / H. C. Graboske / Jr. / D. J. Harwood / /