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大湊 友也*; 山影 相*; 松尾 衛
Physical Review B, 106(16), p.L161406_1 - L161406_6, 2022/10
被引用回数:7 パーセンタイル:73.14(Materials Science, Multidisciplinary)We present a theoretical investigation of anisotropic superconducting spin transport at a magnetic interface between a -wave superconductor and a ferromagnetic insulator. Our formulation describes the ferromagnetic resonance modulations due to spin current generation depending on spin-triplet Cooper pair, including the frequency shift and enhanced Gilbert damping, in a unified manner. We find that the Cooper pair symmetry is detectable from the qualitative behavior of the ferromagnetic resonance modulation. Our theory paves the way toward anisotropic superconducting spintronics.
大湊 友也*; 山影 相*; 加藤 岳生*; 松尾 衛
Physical Review B, 105(20), p.205406_1 - 205406_7, 2022/05
被引用回数:8 パーセンタイル:77.62(Materials Science, Multidisciplinary)We investigate ferromagnetic resonance (FMR) modulation in -wave superconductor (SC)/ferromagnetic insulator (FI) bilayer systems theoretically. The modulation of the Gilbert damping in these systems reflects the existence of nodes in the -wave SC and shows power-law decay characteristics within the low-temperature and low-frequency limit. Our results indicate the effectiveness of the use of spin pumping as a probe technique to determine the symmetry of unconventional SCs with high sensitivity for nanoscale thin films.
大湊 友也*; 大上 能悟*; 松尾 衛
Physical Review B, 105(19), p.195409_1 - 195409_9, 2022/05
被引用回数:1 パーセンタイル:17.38(Materials Science, Multidisciplinary)Angular momentum conversion between mechanical rotation and the valley degree of freedom in 2D Dirac materials is investigated theoretically. Coupling between the valley and vorticity of dynamic lattice distortions is derived by applying the method to 2D Dirac materials with an inertial effect. Lattice strain effects are also incorporated. Valley transfer and valley-dependent carrier localization are predicted using the dynamic lattice distortions. The transport properties are found to be controllable, allowing the system to be insulating and to generate pulsed charge current. Our formalism offers a route toward mechanical manipulation of valley dynamics in 2D Dirac materials.