2019
DOI: 10.1364/oe.27.012638
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Coherent modulation of superradiance from nitrogen ions pumped with femtosecond pulses

Abstract: Singly ionized nitrogen molecules in ambient air pumped by near-infrared femtosecond laser give rise to superradiant emission. Here we demonstrate coherent control of this superradiance by injecting a pair of resonant seeding pulses inside the nitrogen gas plasma. Strong modulation of the 391.4 nm superradiance with a period of 1.3 fs is observed when the delay between the two seeding pulses are finely tuned, pinpointing the essential role of macroscopic coherence in this lasing process. Based on this time-res… Show more

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Cited by 42 publications
(26 citation statements)
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“…The period of the modulation is found to be around 1.3 fs, corresponding to a wavelength of 391.5 nm. This observed modulation agrees well with the wavelength of the transition from B2normalΣu+false(v=0false) to X2normalΣg+false(v=0false) transition, and therefore confirms unambiguously the presence and importance of the macroscopic quantum coherence between the B2normalΣu+ and X2normalΣg+ states in the N2+ lasing process …”
Section: Molecular Nitrogen Ion Lasingsupporting
confidence: 82%
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“…The period of the modulation is found to be around 1.3 fs, corresponding to a wavelength of 391.5 nm. This observed modulation agrees well with the wavelength of the transition from B2normalΣu+false(v=0false) to X2normalΣg+false(v=0false) transition, and therefore confirms unambiguously the presence and importance of the macroscopic quantum coherence between the B2normalΣu+ and X2normalΣg+ states in the N2+ lasing process …”
Section: Molecular Nitrogen Ion Lasingsupporting
confidence: 82%
“…In the N2+ lasing, the quantum coherence not only brings strong nonlinear effects, but also leads to the superradiant emission and also the coherent control, which have been observed with N2+ ions.…”
Section: Molecular Nitrogen Ion Lasingmentioning
confidence: 95%
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