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Jiménez-Galán Á, Zhavoronkov N, Schloz M, et al. Time-resolved high harmonic spectroscopy of dynamical symmetry breaking in bi-circular laser fields: the role of Rydberg states. Opt Express. 2017;25(19):22880-22896doi: 10.1364/OE.25.022880.
Jiménez-Galán, �. �., Zhavoronkov, N., Schloz, M., Morales, F., & Ivanov, M. (2017). Time-resolved high harmonic spectroscopy of dynamical symmetry breaking in bi-circular laser fields: the role of Rydberg states. Optics express, 25(19), 22880-22896. https://doi.org/10.1364/OE.25.022880
Jiménez-Galán, Álvaro, et al. "Time-resolved high harmonic spectroscopy of dynamical symmetry breaking in bi-circular laser fields: the role of Rydberg states." Optics express vol. 25,19 (2017): 22880-22896. doi: https://doi.org/10.1364/OE.25.022880
Jiménez-Galán Á, Zhavoronkov N, Schloz M, Morales F, Ivanov M. Time-resolved high harmonic spectroscopy of dynamical symmetry breaking in bi-circular laser fields: the role of Rydberg states. Opt Express. 2017 Sep 18;25(19):22880-22896. doi: 10.1364/OE.25.022880. PMID: 29041594.
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Opt Express. 2017 Sep 18;25(19):22880-22896. doi: 10.1364/OE.25.022880.

Time-resolved high harmonic spectroscopy of dynamical symmetry breaking in bi-circular laser fields: the role of Rydberg states.

Optics express

Álvaro Jiménez-Galán, Nickolai Zhavoronkov, Marcel Schloz, Felipe Morales, Misha Ivanov

PMID: 29041594 DOI: 10.1364/OE.25.022880

Abstract

The bi-circular scheme for high harmonic generation, which combines two counter-rotating circular fields with frequency ratio 2:1, has recently permitted to generate high harmonics with essentially circular polarization, opening the way for ultrafast chiral studies. This scheme produces harmonic lines at 3N + 1 and 3N + 2 multiples of the fundamental driving frequency, while the 3N lines are forbidden owing to the three-fold symmetry of the field. It is generally established that the routinely observed signals at these forbidden harmonic lines come from a slight ellipticity in the driving fields, which breaks the three-fold symmetry. We find that this is neither the only nor it is the dominant mechanism responsible. The forbidden lines can be observed even for perfectly circular, long driving pulses. We show that they encode rich information on the sub-cycle electronic dynamics that occur during the generation process. By varying the time delay and relative intensity between the two drivers, we demonstrate that when the second harmonic either precedes or is more intense than the fundamental field, the weak effects of dynamical symmetry breaking caused by finite pulse duration are amplified by electrons trapped in Rydberg orbits (i.e., Freeman resonances), and that the forbidden harmonic lines are a witness of this.

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