Density-functional calculations of the cohesive energy of condensed matter in very strong magnetic fields

Details Density-functional calculations of the cohesive energy of condensed matter in very strong magnetic fields Density-functional calculations of the cohesive energy of condensed matter in very strong magnetic fields

Sep 1985

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1985phrvl..55.1338j&link_type=abstract

Physical Review Letters (ISSN 0031-9007), vol. 55, Sept. 16, 1985, p. 1338-1340.

Physics

Condensed Matter

37

Atomic Energy Levels, Electric Fields, Ground State, Magnetic Fields, Pulsars, Atomic Structure, Body Centered Cubic Lattices, Boundary Conditions, Boundary Value Problems, Condensed Matter Physics, Pulsar Magnetospheres

Scientific paper

The ground-state energies of atoms and rhombohedral and body-centered tetragonal atomic lattices have been calculated by density-functional theory for magnetic flux densities of 1012 - 1013G. The cohesive energies derived are too small to support a finite - electric-field boundary condition at the polar cap in a pulsar magnetosphere.

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