Elisabeth Wolf

Direct STM mapping of the superconducting energy gap in single crystal BI2SR2CACU2O8+x

Scanning tunneling spectroscopy applied to BiO cleavage planes of 90 KTc BSCCO 2212 at 4.2 K simultaneously provides topography and localdI/dV spectra (superconducting DOS). The spectra, which are similar to recent photoemission spectra, confirm a large gap parameter Δ(x, y) associated with an apparently gapless DOS on the uppermost layer. Transverse spatial variations of Δ on a 100 Å scale are attributed to variations in BiO metallicity, presumably originating in oxygen stoichiometry variations in an unannealed crystal. We identify two characteristicdI/dV spectral shapes with regions of metallic and nonmetallic BiO layers, and can relate these by the McMillan model of the superconducting proximity effect. A sharply peaked spectral shape, similar to that observed in photoemission, is predicted for the metallic BiO layer induced superconducting by its proximity to the underlying CuO2 planes. The short mean free path and short coherence length imply that both tunneling and photoemission spectra are heavily weighted toward contributions from the BiO layer in fully metallic 2212. The present results and analysis thus suggest that the superconducting proximity effect influences the lineshapes seen by both techniques.

Surface logarithmic correlations in BiSrCaCuO single crystals

Abstract Low temperature STM techniques are applied to study statistical properties of the BiO plane in 2212 high- T c single crystals. The correlation functions of height deviations in x and k spaces have been numerically obtained. Long range power law correlations have been found and attributed to half lattice cell jumps of known height in the c direction. Theoretical analysis of the correlation function resulting, from the assumption that the jumps on the surface are formed by two oppositely charged partial screw dislocations, gives very good agreement with the experimentally found behavior.

Statistical correlations on the BiO surface in Bi2Sr2CaCu2O8-x single crystals

Abstract Low temperature scanning tunneling microscope techniques are applied to study statistical properties of the BiO plane in 2212 high-Tc single crystals. The correlation functions of height deviations in x and k -spaces have been numerically obtained. Long range power law correlations have been found and attributed to half lattice cell jumps of known height in the c direction. Analysis of the correlation function in k-space reveals two modulating superstructures in the b direction. The most pronounced structure is the well known superstructure with period a1 ≈ 27 A. The other one has period a2 ≈ 58 A which is a little more than twice the period of the main superstructure.