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]
日期:2024-08-02
卷期号:32 (19): 33531-33531
被引量:1
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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