The electronic structure of the high T sub c superconducting oxide compounds is discussed.
The discovery of superconductivity with transition temperatures around 100K has challenged our traditional understanding of this phenomenon.
The discovery of superconductivity with transition temperatures around 100K has challenged our traditional understanding of this phenomenon.
The electronic structure of the high T sub c superconducting compounds La sub 2 CuO sub 4 and YBa sub 2 Cu sub 3 O sub 7 is discussed. The 40K material La sub 2 CuO sub 4 is analyzed in detail.
The electronic structure of the high T sub c superconducting oxide compounds is discussed.
The electronic structure of the high T sub c superconducting compounds La sub 2 CuO sub 4 and YBa sub 2 Cu sub 3 O sub 7 is discussed. The 40K material La sub 2 CuO sub 4 is analyzed in detail.
An internally consistent set of parameters for the extended, three band Hubbard model of the Cu-O sheets has been calculated from first principles using a constrained density functional approach.
The valence band and C 1s photoemission spectra were measured from the tips and the sidewalls of multiwalled carbon nantoubes grown on Si substrates.
The electronic structure of multiwalled carbon nanotubes aligned perpendicularly on a Si substrate was studied by means of photoelectron spectromicroscopy.
The Mossbauer effect of the 22 keV gamma-line of sup (151) Eu has been employed to study the electronic configuration of Eu ions in the high T sub c superconducting material Ba sub 2 EuCu sub 3 O
