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红外光诱导氘氘固体再分布的研究

毕鹏 雷海乐 刘元琼 黎军 杨向东

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红外光诱导氘氘固体再分布的研究

毕鹏, 雷海乐, 刘元琼, 黎军, 杨向东

Redistribution of solid-deuterium induced by infrared irradation

Bi Peng, Lei Hai-Le, Liu Yuan-Qiong, Li Jun, Yang Xiang-Dong
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  • 研究了红外光辐射诱导氘氘(DD)固体空间分布变化的内在机理, 探讨了红外光波长和辐射时间对固体冰层空间分布变化和结构的影响. 研究表明: 在特定波长红外光的辐射加热作用下, DD固体冰层的结构呈现出由多晶向单晶变化的趋势, 其空间分布变得均匀、透明. 有效的红外光加热波长为3140 nm, 在其输出功率为100 upW时, DD固体的再分布时间约为18 min.
    In this paper, the internal mechanism of solid deuterium spatial distribution induced by infrared radiation is studied. The changes in spatial distribution and micro-structure of solid deuterium are also discussed as the results of wavelength and heating time of IR light. It is found that the micro-structure of solid deuterium which is irradiated by a special IR light is changed from polycrystal to monocrystal, the solid deuterium is redistributed and becomes more uniform and transparent. The best wavelength of IR light for heating solid deuterium is 3140 nm. When the output power of 3140 nm IR light is 100 upW, the redistribution time of solid deuterium is about 18 min.
      通信作者: 雷海乐, hailelei@caep.ac.cn
      Corresponding author: Lei Hai-Le, hailelei@caep.ac.cn
    [1]

    Chen Q F, Cai L C, Jing F Q, Chen D Q 1999 Acta Phys. Sin. 48 485 (in Chinese)[陈其峰, 蔡灵仓, 经福谦, 陈栋泉 1999 物理学报 48 485]

    [2]

    Zhou J J, Chen Y G, Wu C L, Zheng X, Fang Y C, Gao T 2009 Acta Phys. Sin. 58 4853 (in Chinese)[周晶晶, 陈云贵, 吴朝玲, 郑欣, 房玉超, 高涛 2009 物理学报 58 4853]

    [3]

    Dai W, Tang Y J, Wang C Y, Sun W G 2009 Acta Phys. Sin. 58 7313 (in Chinese)[戴伟, 唐永建, 王朝阳, 孙卫国 2009 物理学报 58 7313]

    [4]

    Henderson T M Johnson R R 1977 Appl. Phys. Lett. 31 18

    [5]

    Zheng L, Wang C, Li S H, Liu B C, Ni G Q, Li R X, Xu Z Z 2006 Chin. Phys. 15 697

    [6]

    Wu J F, Ye W H, Zhang W Y 2010 Acta Phys. Sin. 59 2381 (in Chinese)[吴俊峰, 叶文华, 张维岩 2010 物理学报 59 2381]

    [7]

    Tang Y J, Jiang W Y 1998 High Power Laser And Particle Beams 10 155 (in Chinese)[唐永建, 蒋伟阳 1998 强激光与粒子束 10 155]

    [8]

    Collins GW, Bittner D N,Monsler E, Letts S,Mapoles E R, Bernat T P 1996 J. Vac. Sci. Technol. A 14 2897

    [9]

    Wang G C, Yuan Z S 1996 Inertial Confinement Fusion (Anhui: Anhui Education Press) p259 (in Chinese)[王淦昌, 袁之尚 1996 惯性约束核聚变 (安徽: 安徽教育出版社) 第259页]

    [10]

    Kranendonk J V 1983 Solid Hydrogen: Theory of the Properties of Solid H2, HD, and D2 (New York: Plenum Press)

    [11]

    Trefler M, Cappel A M, Gush H P 1969 Can. J. Phys. 47 2115

    [12]

    Gush H P, Hare W F J, Allin E J, Welsh L 1960 Can. J. Phys. 38 176

    [13]

    Bi P, Liu Y Q, Tang Y J, Yang X D, Lei H L 2010 Acta Phys. Sin. 59 7531 (in Chinese)[毕鹏, 刘元琼, 唐永建, 杨向东, 雷海乐 2009 物理学报 59 7531]

    [14]

    Lei H L, Li J, Tang Y J, Shi H L, Liu Y Q 2009 High Power Laser and Particle Beams 21 53 (in Chinese)[雷海乐, 黎军, 唐永建, 师洪丽, 刘元琼 2009 强激光与粒子束 21 53]

    [15]

    Lei H L, Li J, Tang Y J, Liu Y Q 2009 Rev. Sci. Instrum 80 033103

    [16]

    Chen G B, Bao R, Huang Y H 2006 Cryogenic Engineering Technical Data (Vol.2) (Beijing: Chemical Industry Press) p122 (in Chinese)[陈国邦, 包锐, 黄永华 2006 低温工程技术数据(第2卷)(北京: 化学工业出版社) 第122页]

    [17]

    Miller R G J, Stace B C (Translated by Yu Q L) 1985 Laboratory Methods in Infrared Spectroscopy (2nd Ed.) (Beijing: Mechanical Industry Press) p67 (in Chinese)[密勒R G J, 斯特斯B C著,于铨林译 1985 红外光谱学的实验方法 (第2版)(北京:机械工业出版社)第67页]

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    Pitts D R, Sissom L E 1998 Schaum’s Outline of Theory and Problems of Heat Transfer (2nd Ed.) (New York: McGaw-Hill) p16

  • [1]

    Chen Q F, Cai L C, Jing F Q, Chen D Q 1999 Acta Phys. Sin. 48 485 (in Chinese)[陈其峰, 蔡灵仓, 经福谦, 陈栋泉 1999 物理学报 48 485]

    [2]

    Zhou J J, Chen Y G, Wu C L, Zheng X, Fang Y C, Gao T 2009 Acta Phys. Sin. 58 4853 (in Chinese)[周晶晶, 陈云贵, 吴朝玲, 郑欣, 房玉超, 高涛 2009 物理学报 58 4853]

    [3]

    Dai W, Tang Y J, Wang C Y, Sun W G 2009 Acta Phys. Sin. 58 7313 (in Chinese)[戴伟, 唐永建, 王朝阳, 孙卫国 2009 物理学报 58 7313]

    [4]

    Henderson T M Johnson R R 1977 Appl. Phys. Lett. 31 18

    [5]

    Zheng L, Wang C, Li S H, Liu B C, Ni G Q, Li R X, Xu Z Z 2006 Chin. Phys. 15 697

    [6]

    Wu J F, Ye W H, Zhang W Y 2010 Acta Phys. Sin. 59 2381 (in Chinese)[吴俊峰, 叶文华, 张维岩 2010 物理学报 59 2381]

    [7]

    Tang Y J, Jiang W Y 1998 High Power Laser And Particle Beams 10 155 (in Chinese)[唐永建, 蒋伟阳 1998 强激光与粒子束 10 155]

    [8]

    Collins GW, Bittner D N,Monsler E, Letts S,Mapoles E R, Bernat T P 1996 J. Vac. Sci. Technol. A 14 2897

    [9]

    Wang G C, Yuan Z S 1996 Inertial Confinement Fusion (Anhui: Anhui Education Press) p259 (in Chinese)[王淦昌, 袁之尚 1996 惯性约束核聚变 (安徽: 安徽教育出版社) 第259页]

    [10]

    Kranendonk J V 1983 Solid Hydrogen: Theory of the Properties of Solid H2, HD, and D2 (New York: Plenum Press)

    [11]

    Trefler M, Cappel A M, Gush H P 1969 Can. J. Phys. 47 2115

    [12]

    Gush H P, Hare W F J, Allin E J, Welsh L 1960 Can. J. Phys. 38 176

    [13]

    Bi P, Liu Y Q, Tang Y J, Yang X D, Lei H L 2010 Acta Phys. Sin. 59 7531 (in Chinese)[毕鹏, 刘元琼, 唐永建, 杨向东, 雷海乐 2009 物理学报 59 7531]

    [14]

    Lei H L, Li J, Tang Y J, Shi H L, Liu Y Q 2009 High Power Laser and Particle Beams 21 53 (in Chinese)[雷海乐, 黎军, 唐永建, 师洪丽, 刘元琼 2009 强激光与粒子束 21 53]

    [15]

    Lei H L, Li J, Tang Y J, Liu Y Q 2009 Rev. Sci. Instrum 80 033103

    [16]

    Chen G B, Bao R, Huang Y H 2006 Cryogenic Engineering Technical Data (Vol.2) (Beijing: Chemical Industry Press) p122 (in Chinese)[陈国邦, 包锐, 黄永华 2006 低温工程技术数据(第2卷)(北京: 化学工业出版社) 第122页]

    [17]

    Miller R G J, Stace B C (Translated by Yu Q L) 1985 Laboratory Methods in Infrared Spectroscopy (2nd Ed.) (Beijing: Mechanical Industry Press) p67 (in Chinese)[密勒R G J, 斯特斯B C著,于铨林译 1985 红外光谱学的实验方法 (第2版)(北京:机械工业出版社)第67页]

    [18]

    Pitts D R, Sissom L E 1998 Schaum’s Outline of Theory and Problems of Heat Transfer (2nd Ed.) (New York: McGaw-Hill) p16

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  • PDF下载量:  619
  • 被引次数: 0
出版历程
  • 收稿日期:  2010-11-25
  • 修回日期:  2011-07-05
  • 刊出日期:  2012-03-05

红外光诱导氘氘固体再分布的研究

  • 1. 四川大学原子与分子物理研究所, 成都 610065;
  • 2. 中国工程物理研究院激光聚变研究中心, 绵阳 621900
  • 通信作者: 雷海乐, hailelei@caep.ac.cn

摘要: 研究了红外光辐射诱导氘氘(DD)固体空间分布变化的内在机理, 探讨了红外光波长和辐射时间对固体冰层空间分布变化和结构的影响. 研究表明: 在特定波长红外光的辐射加热作用下, DD固体冰层的结构呈现出由多晶向单晶变化的趋势, 其空间分布变得均匀、透明. 有效的红外光加热波长为3140 nm, 在其输出功率为100 upW时, DD固体的再分布时间约为18 min.

English Abstract

参考文献 (18)

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