旋转相干性在飞秒脉冲驱动氮离子激光中的作用

Hongqiang Xie, H. Lei, Guihua Li, Qian Zhang, Xiaowei Wang, Jing Zhao, Zhiming Chen, J. Yao, Ya Cheng, Zengxiu Zhao
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引用次数: 13

摘要

实验研究了391 nm和428 nm处N $_2^+$激光的旋转分辨偏振特性。通过改变泵浦和种子的线性偏振之间的相对角度,发现391 nm激光的P和R分支的偏振是反向旋转的。相比之下,428纳米激光的两个分支沿着泵浦保持极化。基于一个完整的物理模型,同时包括瞬态光电离和随后的电子、振动和旋转量子态之间的耦合,发现了困惑的异常极化特征的起源,这表明电离后的级联共振拉曼过程在离子基态X $^2\Sigma_g^+(\nu=0)$中产生了$J$和$J$ +2的旋转态之间的负相干性。这导致了391 nm激光的P和R分支的镜像对称偏振。实验和理论都表明,所证明的旋转相干性对阐明N $_2^+$激光的增益机制起着极其关键的作用,并开辟了在超快强场下研究量子光学的途径。
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Role of rotational coherence in femtosecond-pulse-driven nitrogen ion lasing
We experimentally investigated the rotationally resolved polarization characteristics of N$_2^+$ lasing at 391 and 428 nm using a pump-seed scheme. By varying the relative angle between the linear polarizations of the pump and seed, it is found that the polarizations of the P and R branches of 391-nm lasing are counter-rotated. By contrast, both branches of 428-nm lasing remain polarized along the pump. The origin of the puzzled abnormal polarization characteristics is found based on a complete physical model that simultaneously includes the transient photoionization and the subsequent coupling among the electronic, vibrational and rotational quantum states of this http URL suggests that the cascaded resonant Raman processes following ionization create negative coherence between the rotational states of $J$ and $J$+2 in the ionic ground state X$^2\Sigma_g^+(\nu=0)$, which leads to mirror-symmetrical polarization for the P and R branches of 391-nm lasing. Both the experiment and theory indicate that the demonstrated rotational coherence plays an extremely pivotal role in clarifying the gain mechanism of N$_2^+$ lasing and opens up the route toward quantum optics under ultrafast strong fields.
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