Mathieu Giguère scite author profile

Low-frequency currents induced by ultrashort laser-driven ionization can emit extremely broadband, single-cycle terahertz pulses. We present a model that predicts a strong wavelength dependence of the THz emission in good agreement with our experimental study. This reveals that the combined effects of plasma currents rising proportionally to the square of the pump wavelength and wavelength-dependent focusing conditions lead to 30 times higher THz emission at 1800 nm compared to an 800 nm wavelength. Unrivaled single-cycle electric field strengths of 4.4 MV/cm are achieved with this compact table-top setup.

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Wavelength Scaling of High Harmonic Generation Efficiency

Shiner

et al. 2009

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Wavelength scaling of high harmonic generation efficiencyUsing longer wavelength laser drivers for high harmonic generation is desirable because the highest extreme ultraviolet frequency scales as the square of the wavelength. Recent numerical studies predict that high harmonic efficiency falls dramatically with increasing wavelength, with a very unfavorable Àð5À6Þ scaling. We performed an experimental study of the high harmonic yield over a wavelength range of 800-1850 nm. A thin gas jet was employed to minimize phase matching effects, and the laser intensity and focal spot size were kept constant as the wavelength was changed. Ion yield was simultaneously measured so that the total number of emitting atoms was known. We found that the scaling at constant laser intensity is À6:3AE1:1 in Xe and À6:5AE1:1 in Kr over the wavelength range of 800-1850 nm, somewhat worse than the theoretical predictions.

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Tabletop imaging of structural evolutions in chemical reactions demonstrated for the acetylene cation

et al. 2014

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Compression of 1.8 μm laser pulses to sub two optical cycles with bulk material

et al. 2010

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