Amplification characteristics of N<i/>2+ lasing at multiple wavelengths generated by polarization-modulated femtosecond laser fields

激光阈值 飞秒 激光器 增益开关 材料科学 光学 拉曼放大 超辐射 光电子学 连贯性(哲学赌博策略) 放大自发辐射 脉冲持续时间 极化(电化学) 物理 光放大器 化学 物理化学 量子力学
作者
Shu‐Ting Wu,Qian Gao,Yihong Huang,Guihua Li,Zhiming Chen,Xinghao Wang,Hongqiang Xie
出处
期刊:Optics Express [Optica Publishing Group]
卷期号:32 (19): 33531-33531 被引量:1
标识
DOI:10.1364/oe.533766
摘要

Multiple gain routes complicate the amplification behaviors of N2+ lasing. A direct comparison of the amplification processes of various lasing lines of N2+ is still lacking to date, mainly because the efficient generation of different lasing lines requires different experimental conditions. In this work, to overcome the limitation, we use an intense polarization-modulated femtosecond laser pulse to simultaneously produce high-intensity N2+ lasing signals at 391 nm and 428 nm, permitting us readily performing their time-domain characterizations. Our results show that the primary amplification of 428-nm lasing is always retarded by a few picoseconds with respect to the probe pulse while the amplification of 391-nm lasing can be basically completed within the probe pulse duration at a relatively high gas pressure, and besides, the time duration of the former sustains several times longer than that of the latter. These observations indicate the non-negligible contribution of the initial electronic coherence established by the pump laser, apart from the external triggering pulse. For the 391-nm lasing, the seed amplification and superradiance can fiercely interplay within the probe pulse duration. However, for the 428-nm lasing, its amplification is in essence Raman-assisted superfluorescence due to the lacking of the initial electronic coherence and a direct triggering pulse. Our findings not only shed light on the physics of N2+ lasing but also promote the relevant studies on the collective emissions in the cascaded multi-level molecular ion system.
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