空间积分等离子体氧谱线上波尔兹曼图法测温的解释

IF 0.9 4区 物理与天体物理 Q4 PHYSICS, APPLIED
Julien Thouin, Malyk Benmouffok, Pierre Freton, Jean-Jacques Gonzalez
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引用次数: 0

摘要

在热等离子体光谱学中,波尔兹曼图法在测量等离子体温度与压力无关时特别流行。为了更好地理解用原子氧谱线对具有不可忽略厚度的热等离子体进行的波兹曼图测量的结果,基于局部热力学平衡(LTE)的假设和计算出的等离子体成分和性质,开发了一个Python代码。这个代码允许我们模拟氧线强度的测量,这是由等离子体厚度在给定温度分布的一个选择方向上的积分产生的。从这些模拟的玻尔兹曼图中我们得到了一个模拟的温度。结果表明,这种测量是由温度剖面的最大值控制的,直到最高温度超过原子氧谱线的最高发射率。在该温度以上观察到一个限制,可以测量更高的温度,但测量结果的解释是困难的。等离子体压力对这一限制的影响有限。在没有观测到限制的情况下,我们模拟的波尔兹曼图法测得的温度总是至少是温度曲线最大值的90%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interpretation of temperature measurements by the Boltzmann plot method on spatially integrated plasma oxygen spectral lines
In thermal plasma spectroscopy, the Boltzmann plot method is particularly popular for measuring plasma temperature independently of pressure. In order to better understand the results of the Botzmann plot measurements performed with atomic oxygen lines on our thermal plasma, which has a non-negligible thickness, a Python code was developed based on the assumption of local thermodynamic equilibrium (LTE) and the calculated plasma composition and properties. This code allows us to simulate a measurement of the oxygen line intensity resulting from an integration over the plasma thickness in a chosen direction for a given temperature profile. From these a simulated Boltzmann plot gave us a simulated temperature. It resulted that this measurement is governed by the maximum of the temperature profile until the maximum temperature exceeds that of the maximum emissivity of the atomic oxygen lines. Above that temperature a limitation was observed, it is possible to measure higher temperatures but the interpretation of that measurement is difficult. Plasma pressure has a limited effect on this limitation. When no limitation is observed, the temperature measurement from the Boltzmann plot method that we simulated is always at least 90% of the maximum of the temperature profile.
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来源期刊
CiteScore
1.90
自引率
10.00%
发文量
84
审稿时长
1.9 months
期刊介绍: EPJ AP an international journal devoted to the promotion of the recent progresses in all fields of applied physics. The articles published in EPJ AP span the whole spectrum of applied physics research.
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