Solar Irradiance Variability and Luminosity Changes

P. Foukal
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Abstract

This review presents a discussion of radiometric measurements of solar total irradiance variation, AS, on time scales of days, to the 15-year extent of present measurements. It does not cover variations in spectral irradi ance, particularly the relatively large solar UV and EUV flux variations of great importance in studies of trends in stratospheric ozone, and of upper atmospheric heating variations. Analysis of the pyrheliometry of AS carried out from the Solar Maxi mum Mission, Nimbus-7 and ERBS satellites has shown that a) the sun brightens by 0.05 - 0.1% around activity maximum and; b) it dims by up to approximately 0.2% when large sunspot groups cross the disc. Empirical models of AS based on areas and photometric contrasts of sunspots, and on proxies of facular area, are remarkably successful in matching the observed record of AS, on time scales between days and the full 15- year record available since 1978. These models indicate that the opposite contributions of sunspots and faculae in active regions roughly balance over time scales of years, and the net solar brightening observed around peak activity is caused by increased emission from the photospheric magnetic network. model. the when least
太阳辐照度变率和光度变化
这篇综述讨论了太阳总辐照度变化的辐射测量,AS,在天的时间尺度上,到目前测量的15年范围。它不包括光谱辐照度的变化,特别是相对较大的太阳紫外线和极紫外通量的变化,这对研究平流层臭氧趋势和高层大气加热变化非常重要。由太阳极大期任务、Nimbus-7和ERBS卫星进行的AS日冕测量分析表明:a)太阳在活动最大值和附近变亮0.05 - 0.1%;B)当大的太阳黑子群穿过太阳盘时,它的亮度降低了大约0.2%。基于太阳黑子面积和光度对比的AS经验模型,以及基于斑面积的代用物,在天与天之间的时间尺度上与1978年以来可获得的完整的15年记录相匹配,是非常成功的。这些模式表明,太阳黑子和光斑在活动区域的相反贡献在年的时间尺度上大致平衡,在活动高峰附近观测到的太阳净增亮是由光球磁网的发射增加引起的。模型。最不重要的是
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