基于飞秒激光诱导氰基发光技术的边界层速度测量
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Boundary layer velocity measurement based on femtosecond laser-induced cyano luminescence
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    摘要:

    针对现有边界层流场速度测量技术难以实现高时空分辨测量的问题,本研究团队提出飞秒激光诱导氰基化学发光测速技术(Femtosecond Laser-Induced Cyano Chemiluminescence Speed Measurement Technique, FLICC),利用飞秒激光在甲烷 / 氮气混合流场中产生光丝,诱导产生高强度、长寿命的氰基自由基CN(B-X)荧光作为示踪标记,提升信号质量并扩展时间追踪窗口,实现边界层内速度场的高精度测量。实验结果表明:FLICC能够有效适应复杂流动环境,成功实现了对边界层区域低流速流场的高时空分辨测量,速度测量下限下探至5 m / s,为流体力学和航空航天研究提供了一种新的高精度流场速度诊断手段。

    Abstract:

    In response to the difficulty of achieving high spatiotemporal resolution measurements of boundary layer flow velocity using existing techniques, the femtosecond laser-induced cyano chemiluminescence speed measurement technique (FLICC) has been proposed. This technique employs femtosecond laser pulses to generate filaments in a methane / nitrogen mixed flow field, inducing intense and long-lived cyano radical CN (B-X) fluorescence as a tracer marker, thereby enhancing signal quality and extending the temporal tracking window to enable high-precision velocity measurements within the boundary layer. Experimental results demonstrate that the FLICC technique can effectively adapt to complex flow environments and successfully achieve high spatiotemporal resolution measurements of low-velocity flow fields in the boundary layer region, with the lower limit of velocity measurement reaching as low as 5 m / s. This provides a new high-precision diagnostic tool for flow field velocity measurements in fluid dynamics and aerospace research.

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李晓峰, 鲁政, 武腾飞, 朱志峰, 张磊, 李博, 高强.基于飞秒激光诱导氰基发光技术的边界层速度测量[J].计测技术,2026,46(3):15~21:
10.11823/j. issn.1674-5795.2026.03.03.

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  • 在线发布日期: 2026-07-02
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