We consider the problem of c-axis transport in double-layered cuprates, in particular with reference to Bi2Sr2 CaCu2O8+δ compounds. We exploit the effect of the two barriers on the thermal and tunnel transport. The resulting model is able to describe accurately the normal state c-axis resistivity in Bi2Sr2 CaCu2 O8+δ , from the underdoped side up to the strongly overdoped. We extend the model, without introducing additional parameters, in order to allow for the decrease of the barrier when an external voltage bias is applied. The extended model is found to describe properly the c -axis resistivity for small voltage bias above the pseudogap temperature T ∗, the c -axis resistivity for large voltage bias even below Tc , and the differential d I /d V curves taken in mesa structures.
M., G., R., F., S., S., Pompeo, N., E., S. (2007). Tunnel and thermal c-axis transport in BSCCO in the normal and pseudogap states. SUPERCONDUCTOR SCIENCE & TECHNOLOGY, 20, S54-S59 [10.1088/0953-2048/20/2/S12].
Tunnel and thermal c-axis transport in BSCCO in the normal and pseudogap states
POMPEO, NICOLA;
2007-01-01
Abstract
We consider the problem of c-axis transport in double-layered cuprates, in particular with reference to Bi2Sr2 CaCu2O8+δ compounds. We exploit the effect of the two barriers on the thermal and tunnel transport. The resulting model is able to describe accurately the normal state c-axis resistivity in Bi2Sr2 CaCu2 O8+δ , from the underdoped side up to the strongly overdoped. We extend the model, without introducing additional parameters, in order to allow for the decrease of the barrier when an external voltage bias is applied. The extended model is found to describe properly the c -axis resistivity for small voltage bias above the pseudogap temperature T ∗, the c -axis resistivity for large voltage bias even below Tc , and the differential d I /d V curves taken in mesa structures.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.