Abstract
We performed exploratory angle-integrated and angle-resolved photoemission-spectroscopy measurements on Pr-stabilized single crystals of (∼10 K). Fermi-level crossings along principal directions match some crossings predicted by tight-binding calculations. These crossings differ from both the Fermi-surface mapping and the local-density-approximation-derived Fermi surfaces on the much studied (∼75–96 K). We observe optical-polarization effects in the angle-resolved spectra, which is consistent with the states near being derived from the orbitals containing - symmetry. The density-of-states contribution from the Pr 4f states derived by resonant-photoemission spectroscopy suggests that the Pr 4f states do not hybridize strongly and lie away from the Fermi level, thus not affecting the superconductivity of the Bi-Sr-Ca-Cu-O system.
- Received 2 July 1993
DOI:https://doi.org/10.1103/PhysRevB.48.10482
©1993 American Physical Society