Magnetization-control and transfer of spin-polarized Cooper pairs into a half-metal manganite
Anand Srivastava, Linde A. B. Olde Olthof, Angelo Di Bernardo, Sachio, Komori, Mario Amado, Carla Palomares-Garcia, Mohammad Alidoust, Klaus, Halterman, Mark G. Blamire, and Jason W. A. Robinson

TL;DR
This study demonstrates the control and transfer of spin-polarized triplet Cooper pairs into a stable manganite material using in-plane magnetic fields, advancing superconducting spintronics.
Contribution
It introduces a method to transfer spin-polarized triplet pairs into a chemically stable manganite using in-plane magnetic fields, avoiding the instability of CrO$_2$.
Findings
Successful transfer of triplet pairs into La$_{2/3}$Ca$_{1/3}$MnO$_3$
Magnetization-tuneable pair conversion demonstrated
Results align with microscopic theory
Abstract
The pairing state and critical temperature (T) of a thin s-wave superconductor (S) on two or more ferromagnets (F) are controllable through the magnetization-alignment of the F layers. Magnetization misalignment can lead to spin-polarized triplet pair creation, and since such triplets are compatible with spin-polarized materials they are able to pass deeply into the F layers and so, cause a decrease in T. Various experiments on S/F/F "triplet spin-valves" have been performed with the most pronounced suppression of T reported in devices containing the half-metal ferromagnet (HMF) CrO (F) albeit using out-of-plane magnetic fields to tune magnetic non-collinearity [Singh et al., Phys. Rev. X 5, 021019 (2015)]. Routine transfer of spin-polarized triplets to HMFs is a major goal for superconducting spintronics so as to maximize triplet-state spin-polarization.…
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