Abstract
Ultraintense few-cycle THz pulses are employed to study the nonlinear response of graphite. A phase sensitive 2D spectroscopy setup is capable of detecting pump-induced transient changes as well as multi-wave mixing processes. The observed strong THz-pump THz-probe signals provide insight into ultrafast dynamics and the spectral response of the low-energy carriers. Here we report the observation of a pump-induced transmission in graphite. The relaxation dynamics shows three distinct time scales, which are assigned to carrier thermalization, phonon emission and a slow cooling down back to equilibrium. © Owned by the authors, published by EDP Sciences, 2013.
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CITATION STYLE
Schmidt, C., Mayer, B., Junginger, F., Rebholz, M., Grupp, A., Brida, D., … Pashkin, A. (2013). Ultrafast low-energy dynamics of graphite studied by nonlinear multi-THz spectroscopy. In EPJ Web of Conferences (Vol. 41). EDP Sciences. https://doi.org/10.1051/epjconf/20134104023
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