Two-color double-pulse irradiation controls energy absorption in crystalline silicon, with regime-specific mechanisms: multiphoton absorption at low intensity, tunneling and intraband at high intensity, and enhanced per-electron energy gain when short precedes long wavelength in intermediate regimes
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A tight-binding dimer model shows that the laser polarization maximizing high-harmonic yield flips from molecular axes to the intermolecular axis at higher orders, with the flip order depending on coupling strength, and this behavior is already present in adiabatically following states.
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Ultrafast Energy Absorption in Silicon Controlled by Two-Color Double Pulses
Two-color double-pulse irradiation controls energy absorption in crystalline silicon, with regime-specific mechanisms: multiphoton absorption at low intensity, tunneling and intraband at high intensity, and enhanced per-electron energy gain when short precedes long wavelength in intermediate regimes
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High-harmonic generation from two weakly coupled molecules: a simple tight-binding model
A tight-binding dimer model shows that the laser polarization maximizing high-harmonic yield flips from molecular axes to the intermolecular axis at higher orders, with the flip order depending on coupling strength, and this behavior is already present in adiabatically following states.