1. Syntropic spin alignment at the interface between ferromagnetic and superconducting nitrides.
- Author
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Jin Q, Zhang Q, Bai H, Yang M, Ga Y, Chen S, Hong H, Cui T, Rong D, Lin T, Wang JO, Ge C, Wang C, Cao Y, Gu L, Song G, Wang S, Jiang K, Cheng ZG, Zhu T, Yang H, Jin KJ, and Guo EJ
- Abstract
The magnetic correlations at the superconductor/ferromagnet (S/F) interfaces play a crucial role in realizing dissipation-less spin-based logic and memory technologies, such as triplet-supercurrent spin-valves and 'π' Josephson junctions. Here we report the observation of an induced large magnetic moment at high-quality nitride S/F interfaces. Using polarized neutron reflectometry and DC SQUID measurements, we quantitatively determined the magnetization profile of the S/F bilayer and confirmed that the induced magnetic moment in the adjacent superconductor only exists below T
C . Interestingly, the direction of the induced moment in the superconductors was unexpectedly parallel to that in the ferromagnet, which contrasts with earlier findings in S/F heterostructures based on metals or oxides. First-principles calculations verified that the unusual interfacial spin texture observed in our study was caused by the Heisenberg direct exchange coupling with constant J∼4.28 meV through d -orbital overlapping and severe charge transfer across the interfaces. Our work establishes an incisive experimental probe for understanding the magnetic proximity behavior at S/F interfaces and provides a prototype epitaxial 'building block' for superconducting spintronics., (© The Author(s) 2024. Published by Oxford University Press on behalf of China Science Publishing & Media Ltd.)- Published
- 2024
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