原子序数和压力对PF1000等离子体箍缩特性和特征软x射线发射的影响

IF 1.1 Q3 PHYSICS, MULTIDISCIPLINARY
M. A. Malek, M. Huda, M. K. Islam, S. Lee
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引用次数: 0

摘要

在本研究中,使用Lee代码计算了氮气(N2)、氧气(O2)、氖(Ne)和氩气(Ar)的特征软x射线产率(Ysxr)以及氢(H2)、氘(D2)和氦(He)在PF1000压力变化为2.5-2.6 MA时的轫致辐射。在特征软x射线的计算中,所述气体的相应温度窗口被设置为代码,在该代码中它们被电离到类h和类he能级。在各种气体的最优压力下,计算了半径比(等离子体夹尖柱最小半径/阳极半径)、离子密度、比热比、夹尖能量密度、自吸收校正系数和最大感应电压等焦点夹尖参数。捏获得等离子体温度范围(1.2 - -2.2)×106 K的H2, D2,他是完全足够高电离等离子体和由此产生的轫致辐射辐射(14 J)因为他是明显大于H2 (0.26 J)和D2 (0.62 J)。最优Ysxr Ne(∼9314 J)的0.51托捏能量密度(PED)(26∼×108 Jm−3)发现最高的同时为Ar(∼7 J) 0.019托(∼1.2×108 Jm−3)是最低的。结果发现,Ne的半径比(~ 0.05)比Ar的半径比(~ 0.16)小3倍。Ne压缩的增强使离子密度比Ar气体显著提高了253倍。因此,结果表明等离子体捏缩特性与各种气体的Ysxr有很强的相关性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of atomic number and pressure on plasma pinch properties and characteristic soft x-ray emission in PF1000
In this study, the Lee code is used to compute the characteristics soft x-ray yield (Ysxr) production for nitrogen (N2), oxygen (O2), neon (Ne), and argon (Ar) and bremsstrahlung radiation for hydrogen (H2), deuterium (D2), and helium (He) with pressure variation in PF1000 of 2.5–2.6 MA for D2. In the calculation of characteristic soft x-ray, the corresponding temperature windows of the said gases are set into the code at which they are ionized to their H-like and He-like levels. The focus pinch parameters such as radius ratio (minimum radius of plasma pinch column/anode radius), ion density, specific heat ratio, pinch energy density, self-absorption correction factor, and maximum induced voltage are computed at the optimum pressure of each gas. The obtained pinch plasma temperature range (1.2–2.2) × 106 K of H2, D2, and He is sufficiently high for fully ionized plasmas and the resulting bremsstrahlung radiation (14 J) for He is significantly larger than for H2 (0.26 J) and D2 (0.62 J). The optimum Ysxr of Ne(∼9314 J) at 0.51 Torr with pinch energy density (PED) (∼26 × 108 Jm−3) is found to be the highest whilst for Ar(∼7 J) at 0.019 Torr with (∼1.2 × 108 Jm−3) is the lowest. It is found that the radius ratio (∼0.05) of Ne is 3-fold smaller than that (∼0.16) in Ar. This enhancement of compression in pinch of Ne increases the ion density significantly by a factor of 253 than in Ar gas. Thus, the results show a strong correlation of plasma pinch properties with Ysxr for various gases.
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来源期刊
Journal of Physics Communications
Journal of Physics Communications PHYSICS, MULTIDISCIPLINARY-
CiteScore
2.60
自引率
0.00%
发文量
114
审稿时长
10 weeks
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