质子发射

  • 网络proton emission
质子发射质子发射
  1. 在厚度为100μm的Ta靶背表面观测到渡越辐射光斑呈现出星状结构,光斑较小,与高能质子发射出现的星状结构极其相似;

    For a 100 μ m thick target Ta , the facula was a star-structure and became smaller , which resembles a star-structure of the energetic proton emission .

  2. 球形核的质子发射用WKB方法可以很好地描述,变形核的质子发射则须解耦合道的薛定谔方程。

    It is introduced that the proton emission from a spherical nucleus can be well described by WKB method , while that from a deformed nucleus must be described by means of solving coupled channel Schrdinger equations .

  3. 测量结果表明:质子发射张角为10°左右,质子沿着靶背法线方向发射,在能量为570keV处出现截断。

    The results show that the protons are emitted from the normal direction of target-back and have 570 keV cut-off energy and the jet angle is about 10 ° .

  4. 太阳空间观测揭示出太阳的高能电子、高能质子发射以及γ射线爆发。证实了有关的太阳射电辐射理论、揭示出太阳耀斑中的核反应。

    The ejection of energetic electrons and protons , and γ - ray burst are revealed by solar space observations , which have confirmed some related theories of solar radio emission and uncovered the nuclear reaction in flares .

  5. 中能重离子碰撞中的中子(质子)发射的同位旋效应

    Isospin Effect of Neutron ( Proton ) Emission Number in Intermediate Energy Heavy Ion Collisions

  6. 采用外束质子激发X荧光发射技术测定了与穴位位置相对应的结缔组织结构中元素浓度的特异性分布。

    Using external proton beam induced X-ray emission ( PIXE ) technique , theelemental concentrations in the structures of connective tissue corelated to acupointswere determined .