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Electrons in High Magnetic Fields.

PB2001105662

Publication Date	2000
Personal Author	Arko, A. J.; Cort, B. S.; Gosnell, T. R.; Movshovich, R.; Richel, D. G.; Taylor, A. J.; Sarrao, J. L.; Thompson, J. D.; Trugman, S. A.; Wills, J. M.
Page Count	31
Abstract	Materials in which coulomb and spin interactions are significant, display a host of exotic phenomena such as superconductivity, magnetism, metal-insulator transitions, anomalous equations of state, and heavy-fermion behavior. These phenomena--all attributable to dynamical correlations among conduction electrons in representative materials-- currently comprise the frontier of modem condensed-matter theory and experiment; they represent the most fundamental of unsolved problems in the field. They illustrate how complex, scientifically rich, and technologically important effects can emerge when a large number of particles interact in a simple way. This research focused on the application of the National High Magnetic Field Laboratory at Los Alamos to the solution of these fundamental problems.
Keywords	Electrons Magnetic fields Correlations Fermions Superconductivity Magnetism Equations Electronic structure Research and development
Source Agency	Technical Information Center Oak Ridge Tennessee
NTIS Subject Category	46 - Physics 46D - Solid State Physics
Corporate Authors	Los Alamos National Lab., NM.; California Univ., Berkeley.; Department of Energy, Washington, DC.
Supplemental Notes	Submitted to DOE Office of Scientific and Technical Information (OSTI) as final report on XADJ. Prepared in cooperation with California Univ., Berkeley. Sponsored by Department of Energy, Washington, DC.
Document Type	Technical Report
NTIS Issue Number	200117
Contract Number	W-7405-ENG-36

Electrons in High Magnetic Fields.

Electrons in High Magnetic Fields.
PB2001105662

Publication Date	2000
Personal Author	Arko, A. J.; Cort, B. S.; Gosnell, T. R.; Movshovich, R.; Richel, D. G.; Taylor, A. J.; Sarrao, J. L.; Thompson, J. D.; Trugman, S. A.; Wills, J. M.
Page Count	31
Abstract	Materials in which coulomb and spin interactions are significant, display a host of exotic phenomena such as superconductivity, magnetism, metal-insulator transitions, anomalous equations of state, and heavy-fermion behavior. These phenomena--all attributable to dynamical correlations among conduction electrons in representative materials-- currently comprise the frontier of modem condensed-matter theory and experiment; they represent the most fundamental of unsolved problems in the field. They illustrate how complex, scientifically rich, and technologically important effects can emerge when a large number of particles interact in a simple way. This research focused on the application of the National High Magnetic Field Laboratory at Los Alamos to the solution of these fundamental problems.
Keywords	Electrons Magnetic fields Correlations Fermions Superconductivity Magnetism Equations Electronic structure Research and development
Source Agency	Technical Information Center Oak Ridge Tennessee
NTIS Subject Category	46 - Physics 46D - Solid State Physics
Corporate Authors	Los Alamos National Lab., NM.; California Univ., Berkeley.; Department of Energy, Washington, DC.
Supplemental Notes	Submitted to DOE Office of Scientific and Technical Information (OSTI) as final report on XADJ. Prepared in cooperation with California Univ., Berkeley. Sponsored by Department of Energy, Washington, DC.
Document Type	Technical Report
NTIS Issue Number	200117
Contract Number	W-7405-ENG-36