The authors have measured the tunneling characteristics of planar junctions realized on YBa2(Cu1-xFex) 3Oy single crystals with x=0.04. In comparison with the undoped 90 K phase of this material, the conductance curves of the doped junctions show gap-like structures broadened and reduced in amplitude. This behavior is similar to what has been observed in junctions fabricated on YBa2Cu3O7-δ single crystals with Tc=60 K. At low temperatures the background conductance is linear up to about 100 mV and shows a parabolic behavior for higher voltages, as found in the undoped 90 K system. From the analysis of the parabola, the barrier height and thickness are deduced. In the doped junctions anomalies are frequently observed as a conductance peak centered at zero-bias. They appear to result from scattering that involves spin exchange between tunneling electrons and Fe ions localized at the metal-oxide interface
TUNNELING CHARACTERISTICS OF YBA2(CU1-XFEX)3OY JUNCTIONS
CUCOLO, Anna Maria;DI LEO, Rosario;NIGRO, Angela;
1993
Abstract
The authors have measured the tunneling characteristics of planar junctions realized on YBa2(Cu1-xFex) 3Oy single crystals with x=0.04. In comparison with the undoped 90 K phase of this material, the conductance curves of the doped junctions show gap-like structures broadened and reduced in amplitude. This behavior is similar to what has been observed in junctions fabricated on YBa2Cu3O7-δ single crystals with Tc=60 K. At low temperatures the background conductance is linear up to about 100 mV and shows a parabolic behavior for higher voltages, as found in the undoped 90 K system. From the analysis of the parabola, the barrier height and thickness are deduced. In the doped junctions anomalies are frequently observed as a conductance peak centered at zero-bias. They appear to result from scattering that involves spin exchange between tunneling electrons and Fe ions localized at the metal-oxide interfaceI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.