Ultrasound in FeGe reveals a field-tunable conical-state fluctuation scale at 35 K and a field-independent CDW scale at 100 K, with magnetic stiffness controlling the acoustic softening.
Disentangling the intertwined orders in a magnetic kagome metal
2 Pith papers cite this work. Polarity classification is still indexing.
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Nuclear resonant scattering detects phonon hardening at specific energies in the CDW phase of FeGe with minimal phonon or hyperfine changes in the incommensurate magnetic phase.
citing papers explorer
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Magnetoelastic signatures of the conical state and charge density waves in antiferromagnetic FeGe
Ultrasound in FeGe reveals a field-tunable conical-state fluctuation scale at 35 K and a field-independent CDW scale at 100 K, with magnetic stiffness controlling the acoustic softening.
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Phonons and magnetism of kagome FeGe probed by nuclear resonant scattering
Nuclear resonant scattering detects phonon hardening at specific energies in the CDW phase of FeGe with minimal phonon or hyperfine changes in the incommensurate magnetic phase.