A driven-dissipative altermagnetic magnon bath generates an extended LLG equation with two spatially nonlocal anisotropic damping terms, one non-Markovian, for controlling classical spin dynamics in AMI/FI bilayers.
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6 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
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UNVERDICTED 6representative citing papers
Spin accumulation electrically injects a vector magnon spin current into altermagnets with a transverse component enhanced by two orders of magnitude due to broken PT symmetry, providing a transport signature to distinguish them from conventional antiferromagnets.
Hybrid YIG film/CoFeB nanodisk magnonic crystals produce tunable spin-wave bandgaps via mode hybridization rather than Bragg scattering, with control from geometry and nanodisk magnetic configurations.
PT-symmetric antiferromagnets with hidden dipoles allow electric fields to induce up to 20 meV chiral magnon splitting in Cr2CCl2 and Cr2CBr2, enabling reversible switching of magnon spin currents.
Transverse pumping produces markedly higher magnon population at the spectral minimum than parallel pumping because the kinetic instability provides an efficient direct transfer channel under allowed conditions.
Spin pumping and ST-FMR contributions to electrical signals in Pt/magnetic-insulator devices can be separated by geometry and field direction, showing that voltage sign is not a unique indicator of magnon chirality.
citing papers explorer
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Engineering a driven-dissipative bath of altermagnetic quantum magnons for controlling classical dynamics of spins hosting spin waves, domain walls, or skyrmions
A driven-dissipative altermagnetic magnon bath generates an extended LLG equation with two spatially nonlocal anisotropic damping terms, one non-Markovian, for controlling classical spin dynamics in AMI/FI bilayers.
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Vector Magnonics: Electrical Injection and Control of Spin Flow in Altermagnets
Spin accumulation electrically injects a vector magnon spin current into altermagnets with a transverse component enhanced by two orders of magnitude due to broken PT symmetry, providing a transport signature to distinguish them from conventional antiferromagnets.
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Spin-wave bandgap engineering via mode hybridization in dipolar-coupled YIG film/CoFeB nanodisk magnonic crystals
Hybrid YIG film/CoFeB nanodisk magnonic crystals produce tunable spin-wave bandgaps via mode hybridization rather than Bragg scattering, with control from geometry and nanodisk magnetic configurations.
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Electric-Switchable Chiral Magnons in PT-Symmetric Antiferromagnets
PT-symmetric antiferromagnets with hidden dipoles allow electric fields to induce up to 20 meV chiral magnon splitting in Cr2CCl2 and Cr2CBr2, enabling reversible switching of magnon spin currents.
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Enhancement of magnon flux toward a Bose-Einstein condensate
Transverse pumping produces markedly higher magnon population at the spectral minimum than parallel pumping because the kinetic instability provides an efficient direct transfer channel under allowed conditions.
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Disambiguating electrical detection of magnetization dynamics in magnetic insulators
Spin pumping and ST-FMR contributions to electrical signals in Pt/magnetic-insulator devices can be separated by geometry and field direction, showing that voltage sign is not a unique indicator of magnon chirality.