COMPASS升级托卡马克中子标记物的建模与合成中子谱的生成

IF 1.9 4区 工程技术 Q1 NUCLEAR SCIENCE & TECHNOLOGY
Fabien Jaulmes, Ondrej Ficker, Vladimir Weinzettl, Michael Komm, Ondrej Grover, Jakub Seidl, Georgiy Zadvitskiy, Eva Macusova, Radomir Panek
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引用次数: 1

摘要

在未来的COMPASS升级(Vondracek et al. In Fusion Eng Des 169:112490, https://doi.org/10.1016/j.fusengdes.2021.112490, 2021)托卡马克(\(R_0 = 0.894\, \mathrm {m}\), \(B_t \sim 5\, \mathrm {T}\))中,预计有三种不同类型的边缘传输屏障:ELMy h模式,EDA h模式和i模式。用于进入h模式的主要辅助加热系统将是中性束注入(NBI)电源。在最大喷射半径\(R_{\mathrm {tan}} = 0.6\, \mathrm {m}\)处,NBI的标称喷射能量为\(80\,\mathrm {keV}\)。中子束与等离子体背景的相互作用会产生显著的中子产额。利用我们的轨道跟踪代码EBdyna (Jaulmes et al. in nuclear Fusion 61, 046012, https://doi.org/10.1088/1741-4326/abd41b, 2021),我们计算了整个热化过程中NBI离子的轨迹,计算了NBI离子的损失量,并从束-等离子体和束-束相互作用中评估了稳定状态下的中子率。结合热产率,我们可以得到中子能量分布的详细合成谱图。该标记物可进一步用于提供合成中介仪诊断数据。由于当中子源峰值较低时,探测器看到的模拟中子数减少,我们预计需要进行绝对校准以恢复定量结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Modelling of Neutron Markers for the COMPASS Upgrade Tokamak and Generation of Synthetic Neutron Spectra

Modelling of Neutron Markers for the COMPASS Upgrade Tokamak and Generation of Synthetic Neutron Spectra

In the future COMPASS Upgrade (Vondracek et al. in Fusion Eng Des 169:112490, https://doi.org/10.1016/j.fusengdes.2021.112490, 2021) tokamak (\(R_0 = 0.894\, \mathrm {m}\), \(B_t \sim 5\, \mathrm {T}\)), three distinct types of edge transport barrier are anticipated: ELMy H-mode, EDA H-mode and I-mode. The main auxiliary heating system used to access H-mode will be Neutral Beam Injection (NBI) power. The NBI will have a nominal injection energy of \(80\,\mathrm {keV}\) at a maximum injection radius \(R_{\mathrm {tan}} = 0.6\, \mathrm {m}\). A significant neutron yield will occur from the interaction of the beam with the plasma background. Using our orbit-following code EBdyna (Jaulmes et al. in Nucl Fusion 61, 046012, https://doi.org/10.1088/1741-4326/abd41b, 2021), we calculate the trajectories of the NBI ions during the complete thermalization process, calculate the amount of NBI ions losses and evaluate the neutron rate in steady state from the beam–plasma and beam–beam interaction. Combining it with the thermal yield, we can derive detailed synthetic spectrogram of the energy distribution of the neutrons. The markers can be further used to provide synthetic neutron spectrometer diagnostics data. Due to the reduction of the simulated neutron count seen by the detectors when the peaking of the neutron source is lower, we anticipate the need for absolute-calibration in order to recover quantitative results.

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来源期刊
Journal of Fusion Energy
Journal of Fusion Energy 工程技术-核科学技术
CiteScore
2.20
自引率
0.00%
发文量
24
审稿时长
2.3 months
期刊介绍: The Journal of Fusion Energy features original research contributions and review papers examining and the development and enhancing the knowledge base of thermonuclear fusion as a potential power source. It is designed to serve as a journal of record for the publication of original research results in fundamental and applied physics, applied science and technological development. The journal publishes qualified papers based on peer reviews. This journal also provides a forum for discussing broader policies and strategies that have played, and will continue to play, a crucial role in fusion programs. In keeping with this theme, readers will find articles covering an array of important matters concerning strategy and program direction.
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