Strain continuously rotates the Néel vector in altermagnetic MnTe, tuning its magnetic point group symmetry.
Title resolution pending
4 Pith papers cite this work. Polarity classification is still indexing.
4
Pith papers citing it
representative citing papers
EuAgAs exhibits a near-degenerate magnetic ground state with an observed antiferromagnetic order that DFT predicts can be tuned to altermagnetism under hydrostatic pressure of approximately 14 GPa.
A tensor formalism is developed to express RIXS spectra as linear combinations of symmetry-determined fundamental spectra, disentangling geometry from material response for dipole-dipole processes.
Terahertz optorbitronics tracks non-equilibrium orbital currents on femtosecond timescales, addressing conflicting reports on their propagation distances and suggesting control methods via materials like graphene and altermagnets.
citing papers explorer
-
Strain continuously rotates the N\'eel vector in altermagnetic MnTe
Strain continuously rotates the Néel vector in altermagnetic MnTe, tuning its magnetic point group symmetry.
-
Near-degenerate competing magnetic orders in EuAgAs: a tunable route to altermagnetism
EuAgAs exhibits a near-degenerate magnetic ground state with an observed antiferromagnetic order that DFT predicts can be tuned to altermagnetism under hydrostatic pressure of approximately 14 GPa.
-
Polarization dependency in Resonant Inelastic X-Ray Scattering
A tensor formalism is developed to express RIXS spectra as linear combinations of symmetry-determined fundamental spectra, disentangling geometry from material response for dipole-dipole processes.
-
Non-Equilibrium Orbital Transport in Terahertz Optorbitronics
Terahertz optorbitronics tracks non-equilibrium orbital currents on femtosecond timescales, addressing conflicting reports on their propagation distances and suggesting control methods via materials like graphene and altermagnets.