Measurements of Energy Loss of Charded Particles Travelling in Crystalline Materials along the Channeling Directon

HNPS Advances in Nuclear Physics Pub Date : 2021-08-30 DOI:10.12681/hnps.3361
M. Kokkoris, R. Vlastou, C. Papadopoulos, X. Aslanoglou, S. Kossionides, R. Grötzscheld
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Abstract

A method for determining the energy loss and mean dechanneling distance of light charged particles traveling along a low index axis of a crystal in the backscattering geometry, is presented. The method is based on nuclear resonance reactions which act as a marker for the range in the backscattering spectra. Computer simulations based on the assumption of an exponential rate of dechanneling of the incoming particles in the crystalline material, are in good agreement with measured spectra. The results of applying this method to protons and alphas in crystals of Si, SiO2, SiC and MgO are discussed and possible improvements are indicated.
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晶体材料中沿通道方向行进的带电粒子能量损失的测量
提出了一种在晶体后向散射几何中测定沿低折射率轴运动的轻带电粒子能量损失和平均退道距离的方法。该方法基于核共振反应,核共振反应作为后向散射光谱范围的标记。基于晶体材料中入射粒子以指数速率去通道的假设,计算机模拟结果与实测光谱很好地吻合。讨论了将该方法应用于Si、SiO2、SiC和MgO晶体中的质子和α的结果,并指出了可能的改进之处。
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HNPS Advances in Nuclear Physics
HNPS Advances in Nuclear Physics
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