Publikationsansicht

Energy Transfer. (1998)

Abstract

The main thrust of the effort over the last year has been in the fields of magnetic resonance of local moments in metals; thermodynamic properties of organic charge transfer salts, and the properties of superfluid helium. In addition, there has been work on superconductivity, electronic structure of transition metals, cooperative Jahn-Teller effect, and Orbach relaxation in insulators. The final section of the report briefly describes future research plans. The principal directions continue to be in the areas of the dynamics of magnetic alloys and the electronic and magnetic properties of molecular charge transfer solids. (Author)

Details der Publikation

Mitarbeiter	CALIFORNIA UNIV LOS ANGELES DEPT OF PHYSICS
Archiv	Defense Technical Information Center OAI-PMH Repository (United States)
Keywords	SOLID STATE PHYSICS, (*SOLID STATE PHYSICS, REVIEWS), ANTIFERROMAGNETISM, THERMODYNAMICS, MAGNETIC RESONANCE, ELECTRON PARAMAGNETIC RESONANCE, HYPERFINE STRUCTURE, SUPERFLUIDITY, HELIUM, PHONONS, BAND THEORY OF SOLIDS, FERROMAGNETISM, SUPERCONDUCTORS, TUNNELING(ELECTRONICS), IMPURITIES, LIQUID HELIUM, COHERENT POTENTIAL APPROXIMATION, HUBBARD MODEL, JAHN-TELLER EFFECT, UNCERTAINTY PRINCIPLE, ENERGY TRANSFER
Sprache	eng