Latitudinal dependence of variations in the frequencies of solar oscillations above the acoustic cut-off

arXiv - PHYS - Space Physics Pub Date : 2024-09-05 DOI:arxiv-2409.03574

Laura Jade Millson, Anne-Marie Broomhall, Tishtrya Mehta

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Abstract

At high frequencies beyond the acoustic cut-off, a peak-like structure is visible in the solar power spectrum. Known as the pseudo-modes, their frequencies have been shown to vary in anti-phase with solar magnetic activity. In this work, we determined temporal variations in these frequencies across the solar disc, with the aim of identifying any potential latitudinal dependence of pseudo-mode frequency shifts. We utilised nearly 22 years of spatially resolved GONG data for all azimuthal orders, $\textit{m}$, for harmonic degrees 0 $\leq$ $\textit{l}$ $\leq$ 200, and determined shifts using the resampled periodogram method. Periodogram realisations were created from overlapping, successive 216d-long segments in time, and cropped to 5600-6800$\mu$Hz. Cross-correlation functions were then repeatedly generated between these realisations to identify any variation in frequency and the uncertainty. We categorised each mode by its latitudinal sensitivity and used this categorisation to produce average frequency shifts for different latitude bands (15$^\circ$ and 5$^\circ$ in size) which were compared to magnetic proxies, the $F_{\mathrm{10.7}}$ index and GONG synoptic maps. Morphological differences in the pseudo-mode shifts between different latitudes were found, which were most pronounced during the rise to solar maximum where shifts reach their minimum values. At all latitudes, shift behaviour was strongly in anti-correlation with the activity proxy. Additionally, periodicities shorter than the 11-year cycle were observed. Wavelet analysis was used to identify a periodicity of four years at all latitudes.

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声学截止频率以上太阳振荡频率变化的纬度依赖性

在声学截止频率之外的高频率上，太阳功率谱中可以看到一个类似峰值的结构。在这项工作中，我们确定了这些频率在太阳圆盘上的时间变化，目的是识别伪模式频率偏移的潜在纬度依赖性。我们利用近 22 年的空间分辨 GONG 数据，对所有方位阶（$\textit{m}$）、谐波度 0 （$\leq$$\textit{l}$$）和 200 （$\leq$）进行了分析，并使用重采样周期图法确定了频移。周期图变现是从重叠的、连续的 216d 长时段中创建的，并裁剪为 5600-6800 美元/分钟赫兹。然后在这些变现之间反复生成交叉相关函数，以确定频率的任何变化和不确定性。我们根据纬度敏感性对每种模式进行了分类，并利用这种分类方法产生了不同纬度带（15$^\circ$和5$^\circ$大小）的平均频率偏移，并将其与磁代用指标、$F_{\mathrm{10.7}}$指数和GONG同步图进行了比较。发现不同纬度的伪模式偏移存在形态上的差异，这种差异在太阳最大值出现时最为明显，因为此时的偏移达到了最小值。在所有纬度上，位移行为都与活动前兆密切反相关。此外，还观察到比 11 年周期更短的周期性。利用小波分析确定了各纬度的四年周期。

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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arXiv - PHYS - Space Physics

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