Scanning SQUID microscopy study of electron-doped high-Tc superconductors

Recently the use of high resolution electron microscopy (HREM) has contributed increasingly to elucidate the complex structures of high Tc superconductors. The observation of planar defects has suggested new homologous series. Substitution of copper by aliovalent cations such as Ga, Co .... and by c

A cryogenic sample stage for scanning electron microscopes is described. The setup allows performance of measurements in the temperature range from 1.5 K to 300 K. During the measurements the sample can be irradiated directly by the electron beam. The sample temperature can be stabilized by a temper

To study the superconducting-gap symmetry in electron-doped HTSC, we performed a high-resolution ARPES on Pr 0.89 LaCe 0.11 -CuO 4 (optimally-doped, T c = 26 K). Obtained momentum dependence of the superconducting gap is basically consistent with the d x 2 Ày 2 -wave symmetry, but obviously deviates

The binding energies of excess carriers (holes or electrons) as functions of the in-plane copper-oxygen hopping matrix element are calculated numerically by an exact diagonalization of the Emery Hamiltonian for the two-dimensional Cu408 cluster. Based on the results of the calculations, a qualitativ

The high T, superconducting material YBazCu307 shows a complex relationship between microstructure and oxygen content, which are controlled by length of heat treatment, atmosphere, and quench rate. An AEM investigation studying changes in the oxygen near edge features was undertaken. Electron energy