低功率纳米耀斑能量分布的测量

Pub Date : 2023-03-28 DOI:10.12737/stp-91202301
S. Bogachev, N. Erkhova
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引用次数: 1

摘要

我们提出了一种测量1023erg以下能量范围内低能耀斑(纳米耀斑)能量分布的方法。作为一个例子,我们测量了SDO/AIA望远镜在171 Å通道观测到的两个太阳框架的1021-1026 erg范围内的纳米耀斑光谱。纳米耀斑在1022-1026 erg范围内具有幂律谱。光谱指数近似恒定,即与能量无关。当能量低于1022尔格时,光谱开始坍缩。对于较低的能量,低于1021 erg,由于主要误差,该方法不能给出统计上显著的结果。研究结果表明,太阳纳米耀斑可以检测到1021-1022能量。以前只报道过1023erg及以上的结果。根据我们的数据,纳米耀斑在1022 erg以上的能量范围内的总能量通量为P2104 erg cm-2 s-1,约为日冕热损失的15倍。
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Measurement of energy distribution for low power nanoflares
We propose a method to measure the energy distribution of low-energy flares (nanoflares) in the energy range below 1023 erg. As an example, we measured the spectrum of nanoflares in the 1021–1026 erg range for two Sun’s frames observed by the SDO/AIA telescope in the 171 Å channel. Nanoflares are shown to have the power law spectrum in the 1022–1026 erg range. The spectral index is approximately constant, i.e. energy-independent. For energies below 1022 erg, the spectrum begins to collapse. For lower energies, below 1021 erg, the method does not give statistically significant results due to major errors. The results of the study indicate that solar nanoflares can be detected up to 1021–1022 erg energies. Results have previously been reported only for 1023 erg and above. The total energy flux of nanoflares in the energy range above 1022 erg, according to our data, is P2104 erg cm–2 s–1, which is about 15 times less than heating losses of the solar corona.
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