Nonlinear electron-phonon interactions drive light-induced symmetry switching in charge-density waves, as captured by a new first-principles simulation framework that reproduces key experimental features in TiSe2.
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Nonlinear phononics simulations predict that selective infrared phonon excitation in LaFeAsO tunes the anion height to its optimal value for improved superconductivity.
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Nonlinear electron-phonon coupling drives light-induced symmetry switching in charge-density waves
Nonlinear electron-phonon interactions drive light-induced symmetry switching in charge-density waves, as captured by a new first-principles simulation framework that reproduces key experimental features in TiSe2.
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Nonlinear phononics in LaFeAsO: Optical control of the crystal structure toward possible enhancement of superconductivity
Nonlinear phononics simulations predict that selective infrared phonon excitation in LaFeAsO tunes the anion height to its optimal value for improved superconductivity.