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Spin-singlet to triplet Cooper pair converter interface

Matthew Rogers, Alistair Walton, M. G. Flokstra, Fatma Al Ma’Mari, Rhea Stewart, Stephen Lee, Thomas Prokscha, Andrew J. Caruana, Christian J. Kinane, S. Langridge, Harry Bradshaw, Timothy Moorsom, M. Ali, Gavin Burnell, Bryan J. Hickey, Oscar Céspedes

2021Communications Physics12 citationsDOIOpen Access PDF

Abstract

Abstract Combining magnetic and superconducting functionalities enables lower energy spin transfer and magnetic switching in quantum computing and information storage, owing to the dissipationless nature of quasi-particle mediated supercurrents. Here, we put forward a system where emergent spin-ordering and diffusion of Cooper pairs are achieved at a non-intrinsically magnetic nor superconducting metallo-molecular interface. Electron transport, magnetometry and low-energy muon spin rotation are used to probe time-reversal symmetry breaking in these structures. By comparing the Meissner expulsion in a system including a Cu/C 60 spin-converter interface to one without, we observe a paramagnetic contribution that can be explained due to the conversion of spin-singlet Cooper pair states into odd-frequency triplet states. These results demonstrate the potential of metallo-molecular interfaces to achieve singlet to triplet Cooper pair conversion, a capability not present in either metal or molecule separately that could be used in the generation and controlled diffusion of spin polarised dissipationless currents.

Topics & Concepts

Cooper pairSinglet stateCondensed matter physicsMuon spin spectroscopySpin (aerodynamics)PhysicsSuperconductivityMeissner effectSinglet fissionChemistryAtomic physicsExcited stateThermodynamicsQuantum and electron transport phenomenaPhysics of Superconductivity and MagnetismElectronic and Structural Properties of Oxides
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