Long range second harmonic Josephson coupling across a half metallic ferromagnet

David Sanchez-Manzano; Salvatore Mesoraca; Fabian Cuellar; Mariona Cabero; Victor Rouco; Xavier Palermo; Adrian Balan; Lourdes Marcano; Sergio V Valencia; Anke Sander; Mirko Rocci; Javier G Garcia Barriocanal; Fernando Gallego; Alberto Rivera; Federico Mompean; Mar Garcia-Hernandez; Jose Maria Gonzalez-Calbet; Carlos Leon; Cheryl Feuillet-Palma; Nicolas Bergeal; Alexander Buzdin; Jerome Lesueur; Javier E Villegas; Jacobo Santamaria

Long range second harmonic Josephson coupling across a half metallic ferromagnet

ORAL

Abstract

The Josephson effect results from the coupling of two superconductors across a weak link or spacer to yield a phase coherent quantum state. In ferromagnets, singlet (opposite-spin) Cooper pairs decay over very short distances, and thus Josephson coupling requires a nanometric spacer. In systems with particular properties, however, equal spin triplet Cooper pairs can be generated, allowing the coupling of superconductors across magnetic barriers over much longer distances. We demonstrate extremely long range high-temperature Josephson coupling across the half-metallic manganite La_0.7Sr_0.3MnO₃ combined with the superconducting cuprate YBa₂Cu₃O₇. This is shown in planar junctions which display the hallmarks of Josephson physics: critical current oscillations (Fraunhofer pattern) and quantum phase locking under microwave excitation (Shapiro steps). Interestingly, both in the Fraunhofer pattern and in the Shapiro steps, a dominating second harmonic can be observed, which further confirms the exotic superconducting state that can be present in this system. [1-3]

[1] D. Sanchez-Manzano et al. Nat. Mat. (in press)

[2] M.J.A. Stoutimore et al, Phys. Rev. Lett. 121, 177702 (2018)

[3] Y. Yao et al. Phys. Rev. B 104, 104414 (2021)

^*Flag ERA ERA-NET To2DoxERC grant N° 647100 “SUSPINTRONICS”

March 15, 2022, 9:36 AM – March 15, 2022, 9:48 AM

Publication: D. Sanchez-Manzano et al. Nature Materials (in press)

Presenters

David Sanchez-Manzano
- CNRS-Thales, France
- Univ Complutense

Authors

David Sanchez-Manzano
- CNRS-Thales, France
- Univ Complutense
Salvatore Mesoraca
- CNRS/THALES
- CNRS-Thales, France
- Unité Mixte de Physique CNRS/Thales
Fabian Cuellar
- Universidad Complutense Madrid, Spain
Mariona Cabero
- IMDEA Nanoscience, Spain
Victor Rouco
- Univ Complutense
- Universidad Complutense Madrid, Spain
- CNRS/THALES
Xavier Palermo
- CNRS-Thales, France
Adrian Balan
- CNRS-Thales, France
Lourdes Marcano
- Helmholtz-Zentrum Berlin für Materialien und Energie, Germany
Sergio V Valencia
- Helmholtz-Zentrum Berlin
- Helmholtz-Zentrum Berlin für Materialien und Energie GmbH, Germany
Anke Sander
- CNRS-Thales, France
- Unité Mixte de Physique CNRS Thales
- CNRS/THALES
Mirko Rocci
- Massachusetts Institute of Technology MIT, USA
Javier G Garcia Barriocanal
- University of Minnesota
- University of Minnesota, USA
- Characterization Facility, University of Minnesota
Fernando Gallego
- CSIC - Madrid, Spain
Alberto Rivera
- Univ Complutense
- Universidad Complutense Madrid, Spain
Federico Mompean
- ICMM CSIC, Spain
Mar Garcia-Hernandez
- ICMM CSIC, Spain
Jose Maria Gonzalez-Calbet
- Centro Nacional de Microscopia Electronica, Spain
Carlos Leon
- Universidad Complutense Madrid, Spain
Cheryl Feuillet-Palma
- ESPCI Paris, France
Nicolas Bergeal
- ESPCI Paris, France
Alexander Buzdin
- Université Bordeaux, CNRS, France
Jerome Lesueur
- ESPCI Paris, France
Javier E Villegas
- CNRS
- CNRS/THALES
Jacobo Santamaria
- Univ Complutense