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Spin-triplet electron transport in hybrid superconductor heterostructures with a composite ferromagnetic interlayer

Journal Article · · Journal of Experimental and Theoretical Physics
; ; ;  [1];  [2];  [3]
  1. Russian Academy of Sciences, Kotelnikov Institute of Radio Engineering and Electronics (Russian Federation)
  2. Chalmers University of Technology (Sweden)
  3. Max-Planck Institute for Solid State Research (Germany)
+ Show Author Affiliations

Hybrid YBa{sub 2}Cu{sub 3}O{sub 7−x}/SrRuO{sub 3}/La{sub 0.7}Sr{sub 0.3}MnO{sub 3}/Au-Nb superconductor mesastructures with a composite manganite-ruthenate ferromagnetic interlayer are studied using electrophysical, magnetic, and microwave methods. The supercurrent in the mesastructure is observed when the interlayer thickness is much larger than the coherence length of ferromagnetic materials. The peak on the dependence of the critical current density on the interlayer material thickness corresponds to the coherence length, which is in qualitative agreement with theoretical predictions for a system with spit-triplet superconducting correlations. The magnetic-field dependence of the critical current is determined by penetration of magnetic flux quanta and by the magnetic domain structure, as well as by the field dependence of disorientation of the magnetization vectors of the layers in the composite magnetic interlayer. It is found that the supercurrent exists in magnetic fields two orders of magnitude stronger than the field corresponding to entry of a magnetic flux quantum into the mesastructure. The current-phase relation (CPR) of the supercurrent of mesastructures is investigated upon a change in the magnetic field from zero to 30 Oe; the ratio of the second CPR harmonic to the first, determined from the dependence of the Shapiro steps on the microwave radiation amplitude, does not exceed 50%.

OSTI ID:
22472220
Journal Information:
Journal of Experimental and Theoretical Physics, Journal Name: Journal of Experimental and Theoretical Physics Journal Issue: 6 Vol. 120; ISSN JTPHES; ISSN 1063-7761
Country of Publication:
United States
Language:
English

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Related Subjects

75 CONDENSED MATTER PHYSICS
SUPERCONDUCTIVITY AND SUPERFLUIDITY
BARIUM COMPOUNDS
COHERENCE LENGTH
CORRELATIONS
CRITICAL CURRENT
CUPRATES
DOMAIN STRUCTURE
ELECTRONS
FERROMAGNETIC MATERIALS
GOLD
LANTHANUM COMPOUNDS
MAGNETIC FIELDS
MAGNETIC FLUX
MAGNETIZATION
MANGANATES
MICROWAVE RADIATION
NIOBIUM
RUTHENIUM OXIDES
STRONTIUM COMPOUNDS
SUPERCONDUCTORS
YTTRIUM COMPOUNDS