J. W. A. Robinson scite author profile

The theory of superconductivity developed by Bardeen, Cooper and Schrieffer (BCS) explains the stabilization of electron pairs into a spin-singlet, even frequency, state by the formation of an energy gap within which the density of states is zero. At a superconductor interface with an inhomogeneous ferromagnet, a gapless odd frequency superconducting state is predicted, in which the Cooper pairs are in a spin-triplet state. Although indirect evidence for such a state has been obtained, the gap structure and pairing symmetry have not so far been determined. Here we report scanning tunnelling spectroscopy of Nb superconducting films proximity coupled to epitaxial Ho. These measurements reveal pronounced changes to the Nb subgap superconducting density of states on driving the Ho through a metamagnetic transition from a helical antiferromagnetic to a homogeneous ferromagnetic state for which a BCS-like gap is recovered. The results prove odd frequency spin-triplet superconductivity at superconductor/inhomogeneous magnet interfaces.

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Large field induced strain in single crystalline Ni–Mn–Ga ferromagnetic shape memory alloy

Murray

Marioni

Kukla

et al. 2000

157

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A room temperature free shear strain of 5.7% is reported in a single crystal of Ni–Mn–Ga having a composition close to the Heusler alloy Ni2MnGa. A twin boundary was created in a 2 mm×2 mm×25 mm single crystal using a permanent magnet with surface field strength of about 320 000 A/m. A sharp 6.5° bend occurs in the sample at the twin boundary. The surface magnetization changes abruptly across this boundary. By moving the sample relative to the edge of the magnet, we were able to sweep the boundary back and forth along the crystal length. Surface magnetization was measured using a Hall probe and the results confirm that the easy axis is the tetragonal c axis. Powder x-ray diffraction shows that the fcc to body-centered-tetragonal bct martensitic transition of this material involved a 6% reduction of the bct cell c/a ratio, from √ to about 1.33. The maximum achievable strain is thus estimated to be 6.2%. The twin planes in the system are the {112}bct and were observed to lie almost normal to the long axis of the sample tested.

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Magnetization Control and Transfer of Spin-Polarized Cooper Pairs into a Half-Metal Manganite

et al. 2017

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The pairing state and critical temperature (T C ) 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 C . Various experiments on S/F 1 /F 2 "triplet spin-valves" have been performed with the most pronounced suppression of T C reported in devices containing the half-metal ferromagnet (HMF) CrO 2 (F 2 ) albeit using out-of-plane magnetic fields to tune magnetic noncollinearity [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 spinpolarization. However, CrO 2 is chemically unstable and out-of-plane fields are undesirable for superconductivity. Here, we demonstrate low field (3.3 mT) magnetization-tuneable pair conversion and transfer of spin-polarized triplet pairs to the chemically stable mixed valence manganite La 2/3 Ca 1/3 MnO 3 in a pseudo spin-valve device using in-plane magnetic fields. The results match microscopic theory and offer full control over the pairing state.

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Anisotropy and magnetotransport in ordered magnetic antidot arrays

Castaño

Nielsch

Ross

et al. 2004

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Magnetic films containing ordered arrays of holes (“antidots”) with period ∼200nm have been prepared using porous anodic alumina substrates with square and hexagonal symmetries. Large area (∼cm2) single-layer CoFe ordered antidot arrays show well-defined in-plane magnetic anisotropy related to the symmetry of the arrays, and the anisotropic magnetoresistance is smaller than that of a continuous film. For NiFe∕Cu∕CoFe antidot arrays, the giant magnetoresistance ratio of the patterned films is of similar magnitude to that of the unpatterned film, and shares the symmetry of the substrate. This behavior is attributed to the geometry of the antidots, which confine the magnetization of each layer parallel to the current flow.

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Enhanced localized superconductivity in Sr₂RuO₄thin film by pulsed laser deposition

Cao

Massarotti²,

Vickers

et al. 2016

Supercond. Sci. Technol.

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Superconducting c-axis-oriented Sr2RuO4 thin film has been fabricated using pulsed laser deposition. Although the superconductivity is localized, the onset critical temperature is enhanced over the bulk value. X-ray microstructural analysis of Sr2RuO4 superconducting and non-superconducting thin films suggests the existence of the localized stacking faults and an overall c-axis lattice expansion which may account for the locally enhanced superconductivity.

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J. W. A. Robinson

Signature of magnetic-dependent gapless odd frequency states at superconductor/ferromagnet interfaces

Large field induced strain in single crystalline Ni–Mn–Ga ferromagnetic shape memory alloy

Magnetization Control and Transfer of Spin-Polarized Cooper Pairs into a Half-Metal Manganite

Anisotropy and magnetotransport in ordered magnetic antidot arrays

Enhanced localized superconductivity in Sr₂RuO₄thin film by pulsed laser deposition

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J. W. A. Robinson

Signature of magnetic-dependent gapless odd frequency states at superconductor/ferromagnet interfaces

Large field induced strain in single crystalline Ni–Mn–Ga ferromagnetic shape memory alloy

Magnetization Control and Transfer of Spin-Polarized Cooper Pairs into a Half-Metal Manganite

Anisotropy and magnetotransport in ordered magnetic antidot arrays

Enhanced localized superconductivity in Sr2RuO4thin film by pulsed laser deposition

Contact Info

Product

Resources

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Enhanced localized superconductivity in Sr₂RuO₄thin film by pulsed laser deposition