# Unconventional domain wall magnetoresistance of patterned Ni/Nb bilayer   structures below superconducting transition temperature of Nb

**Authors:** Ekta Bhatia, Zainab Hussain, V. Raghavendra Reddy, Zoe H. Barber, and, Kartik Senapati

arXiv: 1904.09867 · 2023-04-11

## TL;DR

This study investigates how the resistance caused by magnetic domain walls in Ni/Nb bilayers changes across the superconducting transition of Nb, revealing potential signatures of spin-triplet supercurrents induced by domain walls.

## Contribution

It provides experimental evidence of domain wall induced spin-triplet correlations in a Ni/Nb bilayer, highlighting unconventional magnetoresistance behavior below Nb's superconducting transition.

## Key findings

- Normal state DWMR peak near coercive field
- Sharp drop in DWMR below superconducting transition
- Possible signature of spin-triplet supercurrents

## Abstract

Scattering of spin-up and spin-down electrons while passing through a ferromagnetic domain wall leads to an additional resistance for transport current, usually observed prominently in constricted magnetic structures. In this report, we use the resistance of the domain wall as a probe to find indirect signatures of the theoretically predicted spin-singlet supercurrent to spin-triplet supercurrent conversion effect of ferromagnetic domain walls. Here we examine the domain wall induced resistance in Ni stripe in a bilayer Ni/Nb geometry in the normal state and in the superconducting state of Nb. By making a 6um wide gap in the top Nb layer we routed the transport current through the Ni layer in the normal state and in the superconducting state of Nb. In the normal state of Nb, in-field transport measurements showed a clear domain wall magneto-resistance (DWMR) peak near the coercive field, where the domain wall density is expected to be maximum. Interestingly, however, below the superconducting transition temperature of Nb, the DWMR peak of the Ni layer showed a sharp drop in the field range where the number of domain walls becomes maximum. This observation may be a possible signature of magnetic domain wall induced spin-triplet correlations in the Ni layer due to the direct injection of spin-singlet Cooper pairs from Nb into the magnetic domain walls.

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/1904.09867/full.md

## References

36 references — full list in the complete paper: https://tomesphere.com/paper/1904.09867/full.md

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Source: https://tomesphere.com/paper/1904.09867