The superconducting properties of (CaCuO2)n/ (SrTiO3)m artificial superlattices have been investigated via transport measurements under the application of external magnetic fields. The coherence lengths in the plane of the substrate and in the direction perpendicular to it (ξab and ξc, respectively) have been measured while varying m, the thickness of the SrTiO3 block. The results show that with increasing m, i.e. with increasing structural anisotropy, the superconducting anisotropy γ = ξab/ξc decreases. This apparent anomalous relation between the structural and the superconducting anisotropies suggests that γ is more affected by local doping at the interface rather than by the separation between the superconducting blocks. This interpretation of the experimental results has been confirmed by both the irreversibility lines and the magnetic field dependence of the activation energy for fluxon motion. © 2013 IOP Publishing Ltd.
Salvato, M., Ottaviani, I., Lucci, M., Cirillo, M., DI CASTRO, D., Innocenti, D., et al. (2013). Superconducting anisotropy in (CaCuO2)n/(SrTiO 3)m superlattices. JOURNAL OF PHYSICS. CONDENSED MATTER, 25(33) [10.1088/0953-8984/25/33/335702].
Superconducting anisotropy in (CaCuO2)n/(SrTiO 3)m superlattices
SALVATO, MATTEO;LUCCI, MASSIMILIANO;CIRILLO, MATTEO;DI CASTRO, DANIELE;TEBANO, ANTONELLO;BALESTRINO, GIUSEPPE
2013-08-21
Abstract
The superconducting properties of (CaCuO2)n/ (SrTiO3)m artificial superlattices have been investigated via transport measurements under the application of external magnetic fields. The coherence lengths in the plane of the substrate and in the direction perpendicular to it (ξab and ξc, respectively) have been measured while varying m, the thickness of the SrTiO3 block. The results show that with increasing m, i.e. with increasing structural anisotropy, the superconducting anisotropy γ = ξab/ξc decreases. This apparent anomalous relation between the structural and the superconducting anisotropies suggests that γ is more affected by local doping at the interface rather than by the separation between the superconducting blocks. This interpretation of the experimental results has been confirmed by both the irreversibility lines and the magnetic field dependence of the activation energy for fluxon motion. © 2013 IOP Publishing Ltd.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
