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首页> 外文期刊>Atomic Energy >NEUTRON-PHYSICAL CHARACTERISTICS OF A NEUTRON SOURCE FOR THE PRODUCTION OF RADIOACTIVE ISOTOPES BASED ON THE INTERACTION OF ELECTRONS WITH LIQUID GALLIUM
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NEUTRON-PHYSICAL CHARACTERISTICS OF A NEUTRON SOURCE FOR THE PRODUCTION OF RADIOACTIVE ISOTOPES BASED ON THE INTERACTION OF ELECTRONS WITH LIQUID GALLIUM

机译:基于电子与液体镓相互作用的放射性同位素生产中子源的中子物理特性

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摘要

The nuclear-physical characteristics obtained for a gallium target in a series of experiments using the time-of-flight method, the method of threshold indicators and a spectrometer based on a He proportional counter on the IREN setup (JINR, Dubna) are presented. The absolute values of the energy spectra of leakage neutrons in the energy range from 10 keV to 15 MeV were measured. The activation method was used to measure the neutron flux density on the surface of a gallium target: (2.882 ± 0.098)·10~8 sec~(-1)·cm~(-2). The integral yield of neutrons obtained from the gallium target on the basis of these data was 1.54·10~(14) sec~(-1) with average current 4 mA. The time dependence of the activation level of the gallium target was measured. It was shown as a result of the analysis that the background level is reached on the surface of the irradiated gallium target in 5 days.
机译:介绍了使用飞行时间方法,阈值指示剂方法和基于IREN装置上的He比例计数器的光谱仪(JINR,Dubna)在一系列实验中获得的镓靶的核物理特性。测量了在10 keV到15 MeV能量范围内的泄漏中子能谱的绝对值。活化法用于测量镓靶表面的中子通量密度:(2.882±0.098)·10〜8 sec〜(-1)·cm〜(-2)。根据这些数据,从镓靶获得的中子的积分产率为1.54·10〜(14)sec〜(-1),平均电流为4 mA。测量了镓靶的活化水平的时间依赖性。分析的结果表明,在5天内辐射的镓靶的表面达到了背景水平。

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  • 来源
    《Atomic Energy》 |2014年第4期|252-257|共6页
  • 作者

    K. V. Mitrofanov; A. S. Egorov; V. M. Piksaikin; A. A. Goverdovskii; K. I. Zolotarev; B. F. Samylin; D. E. Gremyachkin; P. V. Sedyshev; A. O. Zontikov; Sh. S. Zeinalov; V. N. Shvetsov;

  • 作者单位

    State Science Center of the Russian Federation - Leipunskii Institute for Physics and Power Engineering (GNTs RF - FEI), Obninsk, Russia;

    State Science Center of the Russian Federation - Leipunskii Institute for Physics and Power Engineering (GNTs RF - FEI), Obninsk, Russia;

    State Science Center of the Russian Federation - Leipunskii Institute for Physics and Power Engineering (GNTs RF - FEI), Obninsk, Russia;

    State Science Center of the Russian Federation - Leipunskii Institute for Physics and Power Engineering (GNTs RF - FEI), Obninsk, Russia;

    State Science Center of the Russian Federation - Leipunskii Institute for Physics and Power Engineering (GNTs RF - FEI), Obninsk, Russia;

    State Science Center of the Russian Federation - Leipunskii Institute for Physics and Power Engineering (GNTs RF - FEI), Obninsk, Russia;

    State Science Center of the Russian Federation - Leipunskii Institute for Physics and Power Engineering (GNTs RF - FEI), Obninsk, Russia;

    Joint Institute for Nuclear Research (JINR), Dubna, Russia;

    Joint Institute for Nuclear Research (JINR), Dubna, Russia;

    Joint Institute for Nuclear Research (JINR), Dubna, Russia;

    Joint Institute for Nuclear Research (JINR), Dubna, Russia;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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  • 正文语种 eng
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  • 入库时间 2022-08-18 00:39:24

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