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High-resolution electron-energy-loss study of the surfaces and energy gaps of cleaved high-temperature superconductors

B. N. J. PerssonIBM Research Division, Zürich Research Laboratory, 8803 Rüschlikon, SwitzerlandJ. E. DemuthIBM Research Division, T. J. Watson Research Center, Yorktown Heights, New York 10598
1990en
ABI

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High-resolution electron-energy-loss spectroscopy (HREELS) is used to characterize the resistivity, vibrational, and electronic structure of ${\mathrm{YBa}}_{2}$${\mathrm{Cu}}_{3}$${\mathrm{O}}_{7}$, ${\mathrm{Bi}}_{2}$${\mathrm{Sr}}_{2}$${\mathrm{CaCu}}_{2}$${\mathrm{O}}_{8}$, and ${\mathrm{TiS}}_{2}$ single crystals cleaved in ultrahigh vacuum. The HREELS data are analyzed using dipole-scattering theory for a semi-infinite sequence of conducting sheets separated by dielectric slabs. Cleaved surfaces show strong lateral inhomogeneities and a variety of terminations with different properties. Spectroscopy on superconducting regions for a variety of these Cu-O--based superconductors reveals an energy gap in the ab plane that corresponds to (7.8\ifmmode\pm\else\textpm\fi{}0.3)${\mathit{k}}_{\mathit{B}}$${\mathit{T}}_{\mathit{c}}$. The superconducting gap of the 1:2:3 material shows a non-BCS temperature dependence. We also analyze the infrared reflection data from the 1:2:3 material obtained by different groups and find good agreement with our HREELS results. Based on these experimental results, we suggest that the transition to superconductivity is due to a Bose-Einstein condensation of the preexisting or ``real'' space pairs.

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