Time-dependent gate voltage in a singlet-triplet Josephson junction induces an oscillatory cos φ supercurrent component absent in the static case due to gate-controlled spin-orbit coupling.
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3 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 3representative citing papers
Mode-dependent ferromagnetic Kondo coupling yields singlet ground states and heavy Fermi liquids as a magnetic-channel analog to Anderson-Morel superconductivity.
Magnetization and specific heat analyses determine CEF parameters and reveal that the paramagnetic ground state in HoCo2Zn20 is a quasi-sextet from electron-nuclear spin entanglement, switchable to a dectet with different CEF parameters.
citing papers explorer
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Dynamical Josephson Effect Between a Singlet and a Triplet Superconductor
Time-dependent gate voltage in a singlet-triplet Josephson junction induces an oscillatory cos φ supercurrent component absent in the static case due to gate-controlled spin-orbit coupling.
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Kondo singlet from ferromagnetic coupling: an analog of Anderson-Morel superconductivity in the magnetic channel
Mode-dependent ferromagnetic Kondo coupling yields singlet ground states and heavy Fermi liquids as a magnetic-channel analog to Anderson-Morel superconductivity.
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Paramagnetic electron-nuclear spin entanglement in HoCo2Zn20
Magnetization and specific heat analyses determine CEF parameters and reveal that the paramagnetic ground state in HoCo2Zn20 is a quasi-sextet from electron-nuclear spin entanglement, switchable to a dectet with different CEF parameters.