利用光球磁场和 Mg II 指数预报太阳极紫外辐照度

IF 3.7 2区 地球科学
Space Weather Pub Date : 2024-04-13 DOI:10.1029/2023sw003772
Kara L. Kniezewski, Samuel J. Schonfeld, Carl J. Henney
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引用次数: 0

摘要

本文介绍了一种仅利用太阳光层磁图和Mg II指数(即核翼比)来预报极紫外(EUV)和远紫外(FUV)波段光谱辐照度的新方法。这里概述的超紫外和远紫外建模是对SIFT(太阳指数预测工具)模型的直接扩展,以Henney等人(2015年,https://doi.org/10.1002/2014sw001118)为基础。SIFT 利用 ADAPT(空军数据同化光球磁通量传输)模型生成的全球磁图中的地球侧太阳光球磁场总和来估算太阳活动指数。利用来自 ADAPT 地图的强磁场和弱磁场总和,Henney 等人(2015 年,https://doi.org/10.1002/2014sw001118)表明,EUV & FUV 观测也可以用这种技术很好地建模。然而,最初的预报方法需要对每个 SIFT 模型输出进行近期观测,以确定并应用 0 天偏移。本文介绍的新方法扩展了 SIFT 和 ADAPT 建模,可以对观测到的 Mg II 指数进行预报,皮尔逊相关系数为 0.982。通过将 Mg II 模型-观测差值与 EUV & FUV 频道的模型-观测差值相关联,Mg II 可用来应用 0 天偏移校正,从而改进了所研究的 37 个 EUV & FUV 波段中每个波段的建模。通过每日全球光球磁图和 Mg II 指数观测,本研究提供了一种改进的方法来预报用于驱动热层和电离层建模的 EUV & FUV 波段。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nowcasting Solar EUV Irradiance With Photospheric Magnetic Fields and the Mg II Index
A new method to nowcast spectral irradiance in extreme ultraviolet (EUV) and far ultraviolet (FUV) bands is presented here, utilizing only solar photospheric magnetograms and the Mg II index (i.e., the core-to-wing ratio). The EUV and FUV modeling outlined here is a direct extension of the SIFT (Solar Indices Forecasting Tool) model, based on Henney et al. (2015, https://doi.org/10.1002/2014sw001118). SIFT estimates solar activity indices using the earth-side solar photospheric magnetic field sums from global magnetic maps generated by the ADAPT (Air Force Data Assimilative Photospheric Flux Transport) model. Utilizing strong and weak magnetic field sums from ADAPT maps, Henney et al. (2015, https://doi.org/10.1002/2014sw001118) showed that EUV & FUV observations can also be well modeled using this technique. However, the original forecasting method required a recent observation of each SIFT model output to determine and apply a 0-day offset. The new method described here expands the SIFT and ADAPT modeling to nowcast the observed Mg II index with a Pearson correlation coefficient of 0.982. By correlating the Mg II model-observation difference with the model-observation difference in the EUV & FUV channels, Mg II can be used to apply the 0-day offset correction yielding improvements in modeling each of the 37 studied EUV & FUV bands. With daily global photospheric magnetic maps and Mg II index observations, this study provides an improved method of nowcasting EUV & FUV bands used to drive thermospheric and ionospheric modeling.
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