Abstract
We have probed the effects of atomic-scale impurities on superconductivity in by performing low-temperature tunneling spectroscopy measurements with a scanning tunneling microscope. Our results show that nonmagnetic defect structures at the surface create localized low-energy excitations in their immediate vicinity. The impurity-induced excitations occur over a range of energies, including the middle of the superconducting gap, at the Fermi level. Such a zero bias state is a predicted feature for strong nonmagnetic scattering in a -wave superconductor.
- Received 22 March 1999
DOI:https://doi.org/10.1103/PhysRevLett.83.176
©1999 American Physical Society