| Coherent Mott Excitations Captured on the Timescale of Electron Correlations (2009) | |||||||||
Abstract | |||||||||
| By using nearly-single-cycle optical pulses in the near infrared, we measure the time-dependent optical properties of the Mott insulator ET-F2TCNQ after prompt photo-excitation. We observe a rapid drop in spectral weight at the Mott gap, and oscillations in the optical conductivity, revealing coherent electronic-structural rearrangements on the timescale of electron correlations. A quantum dynamic model based on the Fermi Hubbard Hamiltonian predicts recurrence oscillations between bound and unbound holon-doublon pairs, closely matching the experimentally observed frequency. To date, coherent many body processes of this kind have only been experimentally accessible in ultracold gases, where the correlation energies are re-normalized to lower values and the dynamics is correspondingly slower. We bridge the gap between optics on extreme timescales and the control of strongly correlated quantum gases, and identify the first steps in the coherent response of a Mott insulator.. Comment: 4 figures | |||||||||
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