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    Journals >Acta Photonica Sinica >Volume 52 >Issue 4 >Page 0414001 > Article
    • Acta Photonica Sinica
    • Vol. 52, Issue 4, 0414001 (2023)
    Erasing of the Free Induction Decay by Incoherent Ionization Injection
    Haicheng MEI1, Xiang ZHANG1, Santiago LÓPEZ2、3, Qi LU1, Siyu QIN1, Liang XU1, Eduardo OLIVA2、3, and Yi LIU1、*
    Author Affiliations
  • 1Shanghai Key Lab of Modern Optical System, University of Shanghai for Science and Technology, Shanghai 200093, China
  • 2Departamento de Ingeniería Energética, ETSI Industriales, Universidad Politécnica de Madrid, 28006Madrid, Spain
  • 3Instituto de Fusión Nuclear, Universidad Politécnica de Madrid, Madrid 28006, Spain
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    DOI: 10.3788/gzxb20235204.0414001 Cite this Article
    Haicheng MEI, Xiang ZHANG, Santiago LÓPEZ, Qi LU, Siyu QIN, Liang XU, Eduardo OLIVA, Yi LIU. Erasing of the Free Induction Decay by Incoherent Ionization Injection[J]. Acta Photonica Sinica, 2023, 52(4): 0414001 Copy Citation Text show less
    References

    [1] Jinping YAO, Bin ZENG, Huailiang XU et al. High-brightness switchable multiwavelength remote laser in air. Physical Review A, 84, 051802(2011).

    [2] A DOGARIU, J B MICHAEL, M O SCULLY et al. High-gain backward lasing in air. Science, 331, 442-445(2011).

    [3] Luqi YUAN, Yi LIU, Jinping YAO et al. Recent advances in air lasing: a perspective from quantum coherence. Advanced Quantum Technologies, 2, 1900080(2019).

    [4] Hanxiao LI, E LÖTSTEDT, Helong LI et al. Giant enhancement of air lasing by complete population inversion in N2+. Physical Review Letters, 125, 053201(2020).

    [5] P N MALEVICH, R MAURER, D KARTASHOV et al. Stimulated Raman gas sensing by backward UV lasing from a femtosecond filament. Optics Letters, 40, 2469(2015).

    [6] Zhihao ZHANG, Fangbo ZHANG, Bo XU et al. High-sensitivity gas detection with air-lasing-assisted coherent raman spectroscopy. Ultrafast Science, 2022, 9761458(2022).

    [7] S MITRYUKOVSKIY, Yi LIU, Pengji DING et al. Plasma luminescence from femtosecond filaments in air: evidence for impact excitation with circularly polarized light pulses. Physical Review Letters, 114, 063003(2015).

    [8] Yi LIU, Pengji DING, G LAMBERT et al. Recollision-induced superradiance of ionized nitrogen molecules. Physical Review Letters, 115, 133203(2015).

    [9] Huailiang XU, E LÖTSTEDT, A IWASAKI et al. Sub-10-fs population inversion in N2+ in air lasing through multiple state coupling. Nature Communications, 6, 8347(2015).

    [10] Jinping YAO, Shicheng JIANG, Wei CHU et al. Population redistribution among multiple electronic states of molecular nitrogen ions in strong laser fields. Physical Review Letters, 116, 143007(2016).

    [11] A AZARM, P CORKUM, P POLYNKIN. Optical gain in rotationally excited nitrogen molecular ions. Physical Review A, 96, 051401(2017).

    [12] M RICHTER, M LYTOVA, F MORALES et al. Rotational quantum beat lasing without inversion. Optica, 7, 586-592(2020).

    [13] A MYSYROWICZ, R DANYLO, A HOUARD et al. Lasing without population inversion in N2+. APL Photonics, 4, 110807(2019).

    [14] Xiang ZHANG, Qi LU, Zhedong ZHANG et al. Coherent control of the multiple wavelength lasing of N2+ coherence transfer and beyond. Optica, 8, 668(2021).

    [15] Jinping YAO, Wei CHU, Zhaoxiang LIU et al. An anatomy of strong-field ionization-induced air lasing. Applied Physics B, 124, 73(2018).

    [16] Tiejun WANG, J F DAIGLE, Jingjing JU et al. Forward lasing action at multiple wavelengths seeded by white light from a femtosecond laser filament in air. Physical Review A, 88, 053429(2013).

    [17] Yi LIU, Y BRELET, G POINT et al. Self-seeded lasing in ionized air pumped by 800 nm femtosecond laser pulses. Optics Express, 21, 22791(2013).

    [18] V E PROKOPYEV, N G IVANOV, D A KRIVONOSENKO et al. Investigation of the elementary physical processes in plasma of filamentation and optical breakdown regions accompanying the propagation of the femtosecond laser pulse with wavelength of 950 nm in air at atmospheric pressure. Russian Physics Journal, 56, 1274-1280(2014).

    [19] A BALTUSKA, D KARTASHOV. Transient inversion in rotationally aligned nitrogen ions in a femtosecond filament, HTh4B.5(2014).

    [20] Siqi WANG, E LÖTSTEDT, Jincheng CAO et al. Population inversion in N2+ by vibrationally mediated Rabi oscillation at 400 nm. Physical Review A, 104, 032823(2021).

    [21] Xiang ZHANG, Qi LU, Yalei ZHU et al. Multiple-photon resonance enabled quantum interference in emission spectroscopy of N2+. arXiv preprint(2022).

    [22] Jingping YAO, Wei CHU, Zhaoxiang LIU et al. Generation of Raman lasers from nitrogen molecular ions driven by ultraintense laser fields. New Journal of Physics, 20, 033035(2018).

    [23] Jinping YAO, Luojia WANG, Jinming CHEN et al. Photon retention in coherently excited nitrogen ions. Science Bulletin, 66, 1511-1517(2021).

    [24] Zhaoxiang LIU, Jinping YAO, Jinming CHEN et al. Near-resonant raman amplification in the rotational quantum wave packets of nitrogen molecular ions generated by strong field ionization. Physical Review Letters, 120, 083205(2017).

    [25] Hongbin LEI, Jinping YAO, Jing ZHAO et al. Ultraviolet supercontinuum generation driven by ionic coherence in a strong laser field. Nature Communications, 13, 4080(2022).

    [26] E OLIVA, P ZEITOUN, M FAJARDO et al. Comparison of natural and forced amplification regimes in plasma-based soft-x-ray lasers seeded by high-order harmonics. Physical Review A, 84, 013811(2011).

    [27] Pengji DING, J C ESCUDERO, A HOUARD et al. Nonadiabaticity of cavity-free neutral nitrogen lasing. Physical Review A, 96, 033810(2017).

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    Haicheng MEI, Xiang ZHANG, Santiago LÓPEZ, Qi LU, Siyu QIN, Liang XU, Eduardo OLIVA, Yi LIU. Erasing of the Free Induction Decay by Incoherent Ionization Injection[J]. Acta Photonica Sinica, 2023, 52(4): 0414001
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