Interação entre a Matéria de Vórtices e arranjos minimamente ordenados de defeitos de aspecto colunar em YBa2Cu3O7-δ
Abstract
In this work we have studied the interaction of Vortex Matter with columnar
defects in YBa2Cu3O7-δ supercondutcting samples. In these samples prepared by a Solgel
chemical route, the granularety is delicately controled so that the the average cross
section of grains is reasonably constant and the penetration of magnetic flux lines is
columnar-like.
Using magnetic and transport measurements we have constructed the phase
diagram of the studied sample, determinating the higher critical field, the irrevesibility
line, and the line were the pinned vortices lose longitudinal coherence which we call
H*(T).
AC-susceptibility and 6-terminal transport measurements were used to
determine H*(T). The results confirm that, above T* there is a break of longitudinal
coherence and the vortices behave like "pancakes" according to Clem's model, whereas
below T* the longitudinal coherence is maintained. The experimental line H*(T) was
theoretically ajusted, confirming that it is a line of change from the three-dimensional
coherence of the vortices, to an almost two-dimensional of the "pancakes".
Due the existence of a variety of superconducting systems with columnar-like
defects that also present the line H*(T), as for example Mg-deficient MgB2, it is useful
to compare them with the hope that some type of universal behavior can be observed.
The normalized magnetic phase diagram with data of YBa2Cu3O7-δ and MgB2 revealed
the expected similarity between the two systems studied, due to microstructural
similarities between both and not to any intrinsic characteristic of the superconducting
materials, that are very different among themselves.