Theoretical prediction that light pulses from optical to X-ray regimes cause sub-100 fs demagnetization via electronic excitation and electron redistribution in the magneto-sensitive band, without significant phonon or Heisenberg exchange contributions.
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Introduces a universal dimensionless metric for non-adiabatic phase-mode redistribution at defects in condensed media, supported by numerical simulations in a 50-level bosonic basis and a scaling law.
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Electronic mechanism of sub-100-fs demagnetization induced by a femtosecond light pulse
Theoretical prediction that light pulses from optical to X-ray regimes cause sub-100 fs demagnetization via electronic excitation and electron redistribution in the magneto-sensitive band, without significant phonon or Heisenberg exchange contributions.
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Bogoliubov mode dynamics and non-adiabatic transitions in time-varying condensed media
Introduces a universal dimensionless metric for non-adiabatic phase-mode redistribution at defects in condensed media, supported by numerical simulations in a 50-level bosonic basis and a scaling law.