Height-dependent Slow Magnetoacoustic Wave Amplitude and Energy Flux in Sunspot Atmospheres

The Astrophysical Journal Pub Date : 2025-05-28 DOI:10.3847/1538-4357/add336

Y. Sanjay, S. Krishna Prasad and P. S. Rawat

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Abstract

Slow magnetoacoustic waves (SMAWs) have been considered a possible candidate for chromospheric heating in the past. This study analyzed 20 active regions observed between 2012 and 2016 to examine the amplitude and energy flux variation of SMAWs in the umbral atmosphere. Six different wavelength channels from the Atmospheric Imaging Assembly on board the Solar Dynamics Observatory, covering regions from the photosphere to the low corona, were utilized for this purpose. The wave amplitude estimations show a gradual increase in 3 minute oscillation amplitude, peaking between 700 and 900 km, followed by a steady decrease; further, at altitudes greater than 1800 km, it appears to increase and decrease again. The corresponding energy flux, on the other hand, displays a steady and monotonous decrease with a significant reduction in value from approximately 3.32 ± 0.50 kW m−2 near the photosphere to about 6.47 ± 3.16 ×10−4 W m−2 at an altitude of 2585 km. This decay may be attributed to radiative damping and shock dissipation in the lower altitudes and thermal conduction and viscosity in the higher altitudes. The missing flux is a factor of 3–15 lower than that required to counterbalance the chromospheric radiative losses.

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太阳黑子大气中随高度变化的慢磁声波振幅和能量通量

慢磁声波（SMAWs）在过去被认为是色球加热的一个可能的候选者。本研究对2012 - 2016年观测到的20个活跃区域进行了分析，探讨了本影大气中SMAWs的振幅和能量通量的变化。来自太阳动力学观测站上的大气成像组件的六个不同波长通道，覆盖了从光球到低日冕的区域，被用于这个目的。波幅值在3分钟振荡幅度内逐渐增大，在700 ~ 900 km之间达到峰值，随后稳定下降；此外，在超过1800公里的高度，它似乎又增加又减少。另一方面，相应的能量通量则呈现稳定单调的下降趋势，从光球附近的约3.32±0.50 kW m−2显著下降到海拔2585 km处的约6.47±3.16 ×10−4 W m−2。这种衰减可归因于低海拔地区的辐射阻尼和激波耗散，以及高海拔地区的热传导和粘滞。缺失的通量比抵消色球辐射损失所需的通量低3-15倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Astrophysical Journal

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