中大气宇宙射线光谱和强度(CORSIMA)模型。太阳宇宙射线的使用和应用

IF 0.6 Q4 ENGINEERING, AEROSPACE

Aerospace Research in Bulgaria Pub Date : 2023-01-01 DOI:10.3897/arb.v35.e01

P. Velinov, S. Asenovski, L. Mateev

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引用次数: 0

摘要

提出了新模型CORSIMA (COsmic Ray Spectrum and Intensity in Middle Atmosphere)。本文计算了1956年2月23日GLE(地面增强)05和2005年1月20日GLE 69在不同高度的太阳宇宙射线光谱和强度。为此，应用了可操作的CORSIMA模型。在CORSIMA程序的最终版本中，使用了玻尔-贝特-布洛赫函数的6个特征能量区间的近似，包括电荷减少区间。给出了能量区间贡献的解析表达式。本文首次对太阳粒子事件(spe)产生的太阳宇宙射线(SCRs)对电离层和中层大气(30 - 80 km)的影响进行了定量和定性评价。这些高度都在复热-复热最大值之上。与银河宇宙射线(GCR)不同，SCR的微分光谱基本上随时间变化。在不同的事件中，可控硅通量也各不相同。考虑到CORSIMA程序的结构，解释了光谱和强度行为。计算结果与实验数据吻合较好，显示了不同高度和地磁纬度的传播过程特征。计算是在地磁纬度90°(尖峰区)进行的。这一研究的开展对空间天气的过程和机制具有重要意义。

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Cosmic Ray Spectrum and Intensity in Middle Atmosphere (CORSIMA) model. Use and Application for Solar Cosmic Rays

The new model CORSIMA (COsmic Ray Spectrum and Intensity in Middle Atmosphere) is presented. The spectra and intensities of solar cosmic rays (SCR) from GLE (Ground Level Enhancement) 05 on 23 February 1956 and GLE 69 on 20 January 2005 at different altitudes are calculated. For this purpose, the operational CORSIMA model is applied. In the final version of the CORSIMA program, an approximation in 6 characteristic energy intervals of the Bohr-Bethe-Bloch function is used, including the charge decrease interval. Analytical expressions for the contributions of the energy intervals are provided. For the first time we present a quantitative and qualitative appreciation of the impact of Solar Cosmic Rays (SCRs) from the Solar Particle Events (SPEs) on the ionosphere and middle atmosphere (30 - 80 km). These altitudes are above the Regener – Pfotzer maximum. Unlike Galactic Cosmic Rays (GCR), the differential spectra of SCR essentially vary in time. The SCR fluxes also differ from each other during the different events. The spectrum and intensity behavior is explained considering the structure of the CORSIMA program. The calculation results are in agreement with the experimental data and show characteristic features of the propagation process for different altitudes and geomagnetic latitudes. The calculations are performed for geomagnetic latitudes 90o (cusp region). The development of this research is important for the processes and mechanisms of space weather.

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来源期刊

Aerospace Research in Bulgaria ENGINEERING, AEROSPACE-

自引率

33.30%

发文量