Cavity driving induces coherent magnetization and polariton signatures in d-wave altermagnets via selective sublattice coupling in a mean-field Lindblad model.
Mazin (The PRX Editors), Editorial: Altermagnetism—a new punch line of fundamental magnetism, Phys
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
verdicts
UNVERDICTED 3representative citing papers
Slow phonons suppress the spin Edelstein effect in strained Rashba d-wave altermagnets through energy renormalization that collapses the Fermi surface, producing tunable anisotropic depolarization.
Zero net magnetization imposes geometric constraints that enforce spin degeneracy in bands of spin-orbit-free compensated magnets even without conventional spin symmetry protection.
citing papers explorer
-
Cavity-induced coherent magnetization and polaritons in altermagnets
Cavity driving induces coherent magnetization and polariton signatures in d-wave altermagnets via selective sublattice coupling in a mean-field Lindblad model.
-
Slow-phonon control of spin Edelstein effect in Rashba $d$-wave altermagnets
Slow phonons suppress the spin Edelstein effect in strained Rashba d-wave altermagnets through energy renormalization that collapses the Fermi surface, producing tunable anisotropic depolarization.
-
Geometric Spin Degeneracy in Spin-Orbit-Free Compensated Magnets
Zero net magnetization imposes geometric constraints that enforce spin degeneracy in bands of spin-orbit-free compensated magnets even without conventional spin symmetry protection.