NiCu-based superconducting devices: fabrication and characterization

The critical Josephson current (IC) in superconducting/ferromagnetic (S/F) multilayer-based junctions can be controlled by changing the relative directions of the magnetization in the F-layers. Recent experimental works [1, 2] show that an enhancement of IC is achieved in S/F weak links when the alt...

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Published in	Journal of physics. Conference series Vol. 43; no. 1; pp. 1081 - 1087
Main Authors	Ruotolo, A, Pullini, D, Adamo, C, Pepe, G P, Maritato, L, Innocenti, G, Perlo, P
Format	Journal Article
Language	English
Published	Bristol IOP Publishing 01.06.2006
Subjects	Electron beams Ferromagnetism Ion beams Magnetism Magnetoresistance Magnetoresistivity Multilayers Physics Superconducting devices Superconductivity Tunnel junctions
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Abstract	The critical Josephson current (IC) in superconducting/ferromagnetic (S/F) multilayer-based junctions can be controlled by changing the relative directions of the magnetization in the F-layers. Recent experimental works [1, 2] show that an enhancement of IC is achieved in S/F weak links when the alternating F-layers are antiparallel aligned. We present preliminary experimental results concerning the dependence of IC on the relative orientation of the ferromagnetic layers in S/F1/I/F2/S tunnel junctions where the F-layers are obtained by changing the relative composition of NiCu alloys. The multilayers were grown by electron beam deposition, and processed by Focused Ion Beam lithography. The magnetic state of the devices was directly determined by measuring the current perpendicular to plane (CPP) magnetoresistance (MR) at high bias. IC was found to be larger when the F-layers are antiparallel aligned. The maximum change of IC corresponds to the maximum change of MR. The application of a magnetic field induces a transition in the shape of the currentvoltage curve that seems to suggest Coulomb blockade effect.
AbstractList	The critical Josephson current (IC) in superconducting/ferromagnetic (S/F) multilayer-based junctions can be controlled by changing the relative directions of the magnetization in the F-layers. Recent experimental works [1, 2] show that an enhancement of IC is achieved in S/F weak links when the alternating F-layers are antiparallel aligned. We present preliminary experimental results concerning the dependence of IC on the relative orientation of the ferromagnetic layers in S/F1/I/F2/S tunnel junctions where the F-layers are obtained by changing the relative composition of NiCu alloys. The multilayers were grown by electron beam deposition, and processed by Focused Ion Beam lithography. The magnetic state of the devices was directly determined by measuring the current perpendicular to plane (CPP) magnetoresistance (MR) at high bias. IC was found to be larger when the F-layers are antiparallel aligned. The maximum change of IC corresponds to the maximum change of MR. The application of a magnetic field induces a transition in the shape of the currentvoltage curve that seems to suggest Coulomb blockade effect.
Author	Pepe, G P Innocenti, G Ruotolo, A Pullini, D Maritato, L Adamo, C Perlo, P
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Cites_doi	10.1016/S0921-4534(01)00662-1 10.1103/PhysRevB.39.6465 10.1103/PhysRevLett.94.076802 10.1088/0957-4484/15/7/012 10.1063/1.1646217 10.1063/1.331012 10.1063/1.1640798 10.1088/0953-2048/18/6/022 10.1103/PhysRevLett.86.2427 10.1016/S0921-4534(01)01263-1 10.1063/1.1373695 10.1103/PhysRevB.72.064503 10.1103/PhysRevLett.59.109 10.1103/PhysRevLett.86.3140 10.1103/PhysRevB.64.172511
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References	12 Leung C W (9) 2004; 15 14 15 16 17 Ruotolo A (1) 2005; 18 Jiang Q D (13) 1990; 2 2 3 4 5 6 Pepe G P (11) 2005 7 8 10
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Title	NiCu-based superconducting devices: fabrication and characterization
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