| 超热电子的产生与输运背向辐射的测量 |
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| 引用本文: | 王光昶,郑志坚,杨向东,谷渝秋,吴云波.超热电子的产生与输运背向辐射的测量[J].原子核物理评论,2005,22(2):200-203. |
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| 作者姓名: | 王光昶 郑志坚 杨向东 谷渝秋 吴云波 |
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| 作者单位: | [1]四川大学原子分子物理研究所,四川成都610065/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]四川大学原子分子物理研究所,四川成都610065 [4]四川大学计算机学院,四川成都610065 |
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| 基金项目: | 国家自然科学基金资助项目(10275056,10275055)~~ |
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| 摘 要: | 报道了在20TWfs激光器上采用电子磁谱仪和光学CCD积分成像相机分别对激光固体靶相互作用在靶背方向产生的超热电子能谱及其光学渡越辐射进行的测量。能谱测量结果显示:超热电子能谱呈双温类麦克斯韦分布,拟合的温度分别为90和280keV,平均温度为185keV,这与已知的温度定标率较好地吻合。光学渡越辐射测量结果显示:光学渡越辐射是由于超热电子输运穿越固体靶所致,而辐射区域呈圆盘状、有发散角、有光强分布。如果考虑超热电子的产生和加热机制,则占主导地位的加热机制是共振吸收对电子的加热。
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| 关 键 词: | fs激光 固体靶 超热电子 能谱 光学渡越辐射 |
| 文章编号: | 1007-4627(2005)02-0200-04 |
| 收稿时间: | 1900-01-01 |
| 修稿时间: | 2004年9月15日 |
Measurement of Hot Electrons Generation and Transport in Targets at Rear-side Radiation |
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| WANG Guang-chang,ZHENG Zhi-jian,YANG Xiang-dong,GU Yu-qiu,WU Yun-bo.Measurement of Hot Electrons Generation and Transport in Targets at Rear-side Radiation[J].Nuclear Physics Review,2005,22(2):200-203. |
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| Authors: | WANG Guang-chang ZHENG Zhi-jian YANG Xiang-dong GU Yu-qiu WU Yun-bo |
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| Institution: | 1 Atom and Molecule Physics Institute; Sichuan University; Chengdu 610065; China; 2 Research Center of Laser Fusion; China Academy of Engineering Physics; Mianyang 621900; Sichuan; 3 School of Computer Science; Sichuan University; China); |
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| Abstract: | This paper reports hot electron energy spectrum measured with electron spectrometer, and Optical Transition Radiation measured with optical time integrated image of CCD during the interaction of laser solid target in targets at the rear side radiation of laser on 20 Terawatt femtosecond laser facility. It shows that hot electron energy spectrum can be fitted with two temperature like Maxwellian distribution, with T≈90 and 280 keV,but average temperature of hot electrons T≈185 keV, which accorded with the known temperature scaling law. Because Optical Transition Radiation is produced by the hot electrons transport through solid targets, region of Optical Transition Radiation has lager radiation angle and optical intensity distribution. The main acceleration of hot electron comes from resonance absorption. |
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| Keywords: | femtosecond laser solid target hot electron energy spectrum optical transition radiation |
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