Spin injection from a normal metal into a mesoscopic superconductor

Wolf, Michael; Hübler, F.; Kolenda, S.; Löhneysen, H. v.; Beckmann, D.

doi:10.1103/physrevb.87.024517

Cited by 46 publications

(103 citation statements)

References 28 publications

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“…6(d), we finally show an overview of the relaxation length of the nonlocal thermoelectric signal for different applied fields B and base temperatures T 0 . The relaxation length increases with increasing field, as observed previously [18,20]. There is also an increase with temperature, which was not observed in the bias-driven case [20].…”

Section: Resultssupporting

confidence: 81%

Nonlocal thermoelectric effects in high-field superconductor-ferromagnet hybrid structures

Heidrich

Beckmann

2019

Phys. Rev. B

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We report on the experimental observation of nonlocal spin-dependent thermoelectric effects in superconductor-ferromagnet multiterminal structures. Our samples consist of a thin superconducting aluminum wire with several ferromagnetic tunnel junctions attached to it. When a thermal excitation is applied to one of the junctions in the presence of a Zeeman splitting of the density of states of the superconductor, a thermoelectric current is observed in remote junctions at distances exceeding 10 µm. The results can be explained by recent theories of coupled spin and heat transport in high-field superconductors.

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Section: Resultssupporting

confidence: 81%

Nonlocal thermoelectric effects in high-field superconductor-ferromagnet hybrid structures

Heidrich

Beckmann

2019

Phys. Rev. B

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“…The samples consist of a central superconducting wire (S), with normal-metal (N) and/or ferromagnetic (F) wires attached to it via tunnel contacts [18]. …”

Section: Resultsmentioning

confidence: 99%

Charge and spin transport in mesoscopic superconductors

Wolf

Hübler

Kolenda

et al. 2014

Beilstein J. Nanotechnol.

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Summary Background: Non-equilibrium charge transport in superconductors has been investigated intensely in the 1970s and 1980s, mostly in the vicinity of the critical temperature. Much less attention has been paid to low temperatures and the role of the quasiparticle spin. Results: We report here on nonlocal transport in superconductor hybrid structures at very low temperatures. By comparing the nonlocal conductance obtained by using ferromagnetic and normal-metal detectors, we discriminate charge and spin degrees of freedom. We observe spin injection and long-range transport of pure, chargeless spin currents in the regime of large Zeeman splitting. We elucidate charge and spin transport by comparison to theoretical models. Conclusion: The observed long-range chargeless spin transport opens a new path to manipulate and utilize the quasiparticle spin in superconductor nanostructures.

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“…In the energy interval of interest this condition is equivalent to τ ε τ G τ sf (τ sf ∆ 0 ). This is much weaker than τ ε τ G τ sf and even for the thin films used in the recent experiments [15][16][17]19,25,50 , where τ sf τ ε was reported, it is probably valid because of the smallness of the factor (τ sf ∆ 0 ) −1 . At the same time τ G can be chosen in the appropriate interval by varying the transparency of the tunnel S/N interface.…”

Section: Influence Of Spin-flip Processesmentioning

confidence: 87%

Thermospin effects in superconducting heterostructures

Bobkova

Bobkov

2017

Phys. Rev. B

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Recently thermally created pure spin currents were predicted for Zeeman-split superconductor/normal metal heterostructures. Here it is shown that this "thermospin" current can lead to an accumulation of a pure spin imbalance in a system. The thermally induced spin imbalance can reach the value of Zeeman splitting of the superconducting DOS and strongly influences superconductivity in the heterostructure. Depending on the temperature difference between the superconductor and the normal reservoir it can enhance the critical temperature of the superconductor or additionally suppress the zero-temperature superconducting state. The last possibility gives rise to an unusual superconducting state, which starts to develop at finite temperature.

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Spin injection from a normal metal into a mesoscopic superconductor

Cited by 46 publications

References 28 publications

Nonlocal thermoelectric effects in high-field superconductor-ferromagnet hybrid structures

Nonlocal thermoelectric effects in high-field superconductor-ferromagnet hybrid structures

Charge and spin transport in mesoscopic superconductors

Thermospin effects in superconducting heterostructures

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