Stopping Power and Partial Stopping Power Effective Charge in The Plasma

Al-Mustansiriyah Journal of Sciences Pub Date : 2020-04-15 DOI:10.23851/mjs.v31i2.758

Maryam Yahya Al-Abdallah, B. M. Ahmed, Khalid A. Ahmed

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Abstract

The energy losses of ions moving in an electron gas can be studied through the stopping power of the medium. A large number of calculations of the stopping power of ions and electrons in plasmas have been carried out using the random phase approximation (RPA) in the dielectric formalism, for low and high energies. Then we calculated the partial stopping power effective charge (PSPEC) from the energy loss of an incident proton, Ar-ion, and He-ion in target plasma. The Brandt-Kitagawa (BK) model is used to describe the projectile charge fraction (q) and calculate the stopping power and PSPEC, which depends on temperature and electron density ρ (k) of the plasma. This is a topic of relevance to understanding the beam-target interaction in the contexts of particle driven fusion. The presented study is formulated in terms of classical dielectric functions. The programming language Fortran - 90 was used for a required calculation. In the present work, three systems of plasma (Z-pinch, Tokamak, ICF) for different temperatures and densities were covered. Additionally, a comparison has been done with the previous work of plasma.

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等离子体中的停止功率和部分停止功率有效电荷

离子在电子气体中运动时的能量损失可以通过介质的停止功率来研究。利用介电形式下的随机相位近似(RPA)，对低能和高能等离子体中离子和电子的停止能力进行了大量的计算。然后根据入射质子、ar离子和he离子的能量损失计算了靶等离子体的部分停止功率有效电荷(PSPEC)。采用Brandt-Kitagawa (BK)模型描述了弹丸电荷分数(q)，并计算了停止功率和PSPEC，其取决于等离子体的温度和电子密度ρ (k)。这是一个与理解粒子驱动聚变背景下的束靶相互作用相关的话题。本研究是用经典介电函数来表述的。程序设计语言Fortran - 90用于所需的计算。本文研究了不同温度和密度下的等离子体(Z-pinch，托卡马克，ICF)系统。此外，还与以往关于等离子体的研究进行了比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Al-Mustansiriyah Journal of Sciences

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