Lewis theory for energy straggling in thin layers

Anil K. Prinja

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Lewis theory for energy straggling in thin layers

机译：薄层能量散逸的刘易斯理论

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A Lewis-moments theory for energy straggling is developed that underpins the observed numerical accuracy of moment-preserving approximations for computing charged particle energy-loss distributions in thin layers. Specifically, we prove that for a certain class of straggling models, if an approximate straggling model has identical collisional energy-loss moments as the exact or analog model through a fixed order N, then the corresponding energy-moments of the energy-loss distributions are identical to order N.

机译：建立了用于能量散布的刘易斯矩理论，该理论为计算薄层中带电粒子能量损耗分布的矩量保持近似值的数值精度奠定了基础。具体而言，我们证明对于特定类别的散布模型，如果近似散布模型具有与固定模型N相同的碰撞能量损失矩与精确模型或模拟模型相同，则能量损失分布的相应能量矩为与N阶相同

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《Nuclear instruments and methods in physics research》 |2014年第1期|99-102|共4页
作者
Anil K. Prinja;
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作者单位

University of New Mexico, Department of Nuclear Engineering, MSC01 1120, Albuquerque, NM 87131, USA;

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原文格式 PDF
正文语种 eng
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关键词
Energy-loss straggling; Lewis moments; Moment-preserving approximations; Moment-equivalence;

机译：能量损耗不稳;刘易斯时刻;保持矩的近似值;矩当量;

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Lewis theory for energy straggling in thin layers

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