Mechanism of flux motion in epitaxially grown thin films of YBa2Cu3O7−x

Thin films of YBazCuaO+x are deposited on MgO substrates via dc magnetron sputter technic. The thicknesses varry between 1Onm and 500nm. The films are patterned by dry etching method. Narrow stripes with widths down to 1 urn are obtained without serious degradation, e.g. Tc,ocf > 85K and Tc < 1.6K.

The influence of Zn-impurity atoms on the superconducting critical temperature T~, the resistive transitions in magnetic fields 0=~(B, T) and the critical current density j~b(B, T) of epitaxially grown, c-axis oriented YBa2(Cux\_~Zn=)aO7 films is reported. For very small concentrations x < 0.005 we

The superconducting transition and critical current density were studied for epitaxial YBa2Cu307\_x thin films as a function of temperature, magnetic field and electric voltage gradient. A linear section of the curve of the logarithm of apparent voltage versus transport current density, In(E)-J, was

A systematic study of the flux creep behavior has been carried out for c-axis oriented epitaxial YBa2Cu307 thin films based on the Anderson and Kim flux creep model. In a wide magnetic field (H) range (0 to 12 T) and temperature (T) range ( 10 to 82 K), the behavior of the critical current density J