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Non-reciprocity of vortex-limited critical current in conventional superconducting micro-bridges

Dhavala Suri, Akashdeep Kamra, Thomas Meier, M. Kronseder, Wolfgang Belzig, C. H. Back, Christoph Strunk

2022Applied Physics Letters71 citationsDOIOpen Access PDF

Abstract

Non-reciprocity in the critical current has been observed in a variety of superconducting systems and has been called the superconducting diode effect. The origin underlying the effect depends on the symmetry breaking mechanisms at play. We investigate superconducting micro-bridges of NbN and also NbN/magnetic insulator (MI) hybrids. We observe a large diode efficiency of ≈30% when an out-of-plane magnetic field as small as 25 mT is applied. In both NbN and NbN/MI hybrid, we find that the diode effect vanishes when the magnetic field is parallel to the sample plane. Our observations are consistent with the critical current being determined by the vortex surface barrier. Unequal barriers on the two edges of the superconductor strip result in the diode effect. Furthermore, the rectification is observed up to 10 K, which makes the device potential for diode based applications over a larger temperature range than before.

Topics & Concepts

SuperconductivityCondensed matter physicsRectificationDiodeVortexReciprocity (cultural anthropology)PhysicsMagnetic fieldInsulator (electricity)Critical currentOptoelectronicsMechanicsVoltageQuantum mechanicsSocial psychologyPsychologyPhysics of Superconductivity and MagnetismQuantum and electron transport phenomenaElectronic and Structural Properties of Oxides
Non-reciprocity of vortex-limited critical current in conventional superconducting micro-bridges | Litcius