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| 激光干涉技术在超声速气体喷嘴特性研究中的应用 | |
| 引用本文: | 吴玉迟,张保汉,谷渝秋,杨朝文,葛芳芳,王磊,王红斌,刘红杰,陈家斌,何颖玲,郑志坚.激光干涉技术在超声速气体喷嘴特性研究中的应用[J].应用光学,2007,28(5):603-607. |
| 作者姓名: | 吴玉迟 张保汉 谷渝秋 杨朝文 葛芳芳 王磊 王红斌 刘红杰 陈家斌 何颖玲 郑志坚 |
| 作者单位: | 1. 四川大学,物理科学与技术学院,四川,成都,610064;中国工程物理研究院,激光聚变研究中心,四川,绵阳,621900 2. 中国工程物理研究院,激光聚变研究中心,四川,绵阳,621900 3. 四川大学,物理科学与技术学院,四川,成都,610064 4. 中国工程物理研究院,激光聚变研究中心,四川,绵阳,621900;同济大学,玻耳固体研究所,上海,200092 5. 四川大学,原子核科学与技术研究所,四川,成都,610064;中国工程物理研究院,激光聚变研究中心,四川,绵阳,621900 |
| 基金项目: | 国家自然科学基金;中物院科学技术重大基金 |
| 摘 要: | 在激光与物质相互作用的实验中,气体靶通常由超声速喷嘴在高背压下向真空中高速喷射气体产生。激光与气体靶相互作用时确定打靶条件对整个实验有着十分重要的意义。为了得到不同实验条件下气体靶密度的分布特性,采用马赫-曾德尔干涉法测量了气体靶密度分布,获取了干涉图样。使用基于傅里叶变换的条纹处理方法测得的干涉图样,得到不同实验条件下气体分子密度的全空间分布。实验表明:用M-Z干涉仪测量超声速气体喷嘴产生的气体靶密度分布十分有效。基于傅里叶变换的条纹处理方法具有精度高、实时性好的优点,为打靶时气体靶密度的实时测量提供了可能。 |
| 关 键 词: | 马赫-曾德尔干涉法 傅里叶变换 干涉条纹分析 气体靶密度 Abel反演 |
| 文章编号: | 1002-2082(2007)05-0603-05 |
| 收稿时间: | 2007/1/25 |
| 修稿时间: | 2007-01-252007-03-19 |
Application of laser interferogram technique in characterizing supersonic gas jet |
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| WU Yu-chi,ZHANG Bao-han,GU Yu-qiu,YANG Chao-wen,GE Fang-fang,WANG Lei,WANG Hong-bin,LIU Hong-jie,CHEN Jia-bin,HE Ying-ling,ZHENG Zhi-jian.Application of laser interferogram technique in characterizing supersonic gas jet[J].Journal of Applied Optics,2007,28(5):603-607. | |
| Authors: | WU Yu-chi ZHANG Bao-han GU Yu-qiu YANG Chao-wen GE Fang-fang WANG Lei WANG Hong-bin LIU Hong-jie CHEN Jia-bin HE Ying-ling ZHENG Zhi-jian |
| Institution: | 1. College of Physical Science and Technology, Sichuan University, Chengdu 610064, China ; 2. Institute of Nuclear Science and Technology, Sichuan University, Chengdu 610064, China ; 3. Research Center of Laser Fusion, China Academy of Engineering Physics, Mianyang 621900, China ; 4. Pohl Institute of Solid State Physics, Tongji University, Shanghai 200092, China |
| Abstract: | In laser-cluster interaction experiment, the gas target is usually generated by stuffing gas into vacuum chamber in high flow velocity via supersonic gas jet under the condition of very high backing pressure. To acquire the density distribution characteristics of the gas target in different experimental conditions, the density distribution of the gas target was measured with M-Z interferometry, and the fringes were obtained at different backing pressures, temperatures and time lapses. The total spatial distribution of gas molecular density under different experimental conditions was obtained via the interferometer pattern measured by Fourier trans-formation based fringe processing. The experiment shows that M-Z interferometer can effectively measure the gas target density distribution produced by the supersonic gas jet. The fringe processing method based on Fourier transformation is accurate and has real-time feature. Therefore, it provides the possibility for the real-time measurement of gas target density during targeting practice. |
| Keywords: | M-Z interferometry Fourier transformation fringe analysis gas target density Abel inversion |
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