Analytical expressions for emergent impedance in antiferromagnetic domain walls show separate contributions from translational motion proportional to velocity and from time-dependent sublattice canting inversely proportional to exchange coupling, with their competition setting the imaginary part at低
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Treating orbital degrees of freedom as dynamical variables in altermagnets generates emergent electric fields tunable by lattice anisotropy, driving orbital and magnetic multipole currents even in simplified textures with dynamic lattice distortion.
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Emergent impedance due to antiferromagnetic domain wall dynamics
Analytical expressions for emergent impedance in antiferromagnetic domain walls show separate contributions from translational motion proportional to velocity and from time-dependent sublattice canting inversely proportional to exchange coupling, with their competition setting the imaginary part at低
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Orbital-driven emergent transport in altermagnets
Treating orbital degrees of freedom as dynamical variables in altermagnets generates emergent electric fields tunable by lattice anisotropy, driving orbital and magnetic multipole currents even in simplified textures with dynamic lattice distortion.