A SYSTEMATIC SURVEY OF HIGH-TEMPERATURE EMISSION IN SOLAR ACTIVE REGIONS

The recent analysis of observations taken with the EUV Imaging Spectrometer and X-Ray Telescope instruments on Hinode suggests that well-constrained measurements of the temperature distribution in solar active regions can finally be made. Such measurements are critical for constraining theories of c...

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Veröffentlicht in:	The Astrophysical journal 2012-11, Vol.759 (2), p.1-13
Hauptverfasser:	WARREN, Harry P, WINEBARGER, Amy R, BROOKS, David H
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Sprache:	eng
Schlagworte:	Astronomy ASTROPHYSICS ASTROPHYSICS, COSMOLOGY AND ASTRONOMY Differential thermal analysis Earth, ocean, space Emission Emission analysis EMISSION SPECTROSCOPY Emissions control Evolution Exact sciences and technology EXTREME ULTRAVIOLET RADIATION GAMMA ASTRONOMY HEATING IRON IONS MAGNETIC FLUX PHOTON EMISSION SOLAR CORONA SPATIAL DISTRIBUTION SUN TEMPERATURE DISTRIBUTION Uncertainty X RADIATION
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container_title	The Astrophysical journal
container_volume	759
creator	WARREN, Harry P WINEBARGER, Amy R BROOKS, David H
description	The recent analysis of observations taken with the EUV Imaging Spectrometer and X-Ray Telescope instruments on Hinode suggests that well-constrained measurements of the temperature distribution in solar active regions can finally be made. Such measurements are critical for constraining theories of coronal heating. Past analysis, however, has suffered from limited sample sizes and large uncertainties at temperatures between 5 and 10 MK. Here we present a systematic study of the differential emission measure distribution in 15 active region cores. We focus on measurements in the "inter-moss" region, that is, the region between the loop footpoints, where the observations are easier to interpret. To reduce the uncertainties at the highest temperatures we present a new method for isolating the Fe xvm emission in the AIA/SDO 94 A channel. The resulting differential emission measure distributions confirm our previous analysis showing that the temperature distribution in an active region core is often strongly peaked near 4 MK. We characterize the properties of the emission distribution as a function of the total unsigned magnetic flux. We find that the amount of high-temperature emission in the active region core is correlated with the total unsigned magnetic flux, while the emission at lower temperatures, in contrast, is inversely related. These results provide compelling evidence that high-temperature active region emission is often close to equilibrium, although weaker active regions may be dominated by evolving million degree loops in the core.
doi_str_mv	10.1088/0004-637x/759/2/141
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Such measurements are critical for constraining theories of coronal heating. Past analysis, however, has suffered from limited sample sizes and large uncertainties at temperatures between 5 and 10 MK. Here we present a systematic study of the differential emission measure distribution in 15 active region cores. We focus on measurements in the "inter-moss" region, that is, the region between the loop footpoints, where the observations are easier to interpret. To reduce the uncertainties at the highest temperatures we present a new method for isolating the Fe xvm emission in the AIA/SDO 94 A channel. The resulting differential emission measure distributions confirm our previous analysis showing that the temperature distribution in an active region core is often strongly peaked near 4 MK. We characterize the properties of the emission distribution as a function of the total unsigned magnetic flux. We find that the amount of high-temperature emission in the active region core is correlated with the total unsigned magnetic flux, while the emission at lower temperatures, in contrast, is inversely related. 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Such measurements are critical for constraining theories of coronal heating. Past analysis, however, has suffered from limited sample sizes and large uncertainties at temperatures between 5 and 10 MK. Here we present a systematic study of the differential emission measure distribution in 15 active region cores. We focus on measurements in the "inter-moss" region, that is, the region between the loop footpoints, where the observations are easier to interpret. To reduce the uncertainties at the highest temperatures we present a new method for isolating the Fe xvm emission in the AIA/SDO 94 A channel. The resulting differential emission measure distributions confirm our previous analysis showing that the temperature distribution in an active region core is often strongly peaked near 4 MK. We characterize the properties of the emission distribution as a function of the total unsigned magnetic flux. 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subjects	Astronomy ASTROPHYSICS ASTROPHYSICS, COSMOLOGY AND ASTRONOMY Differential thermal analysis Earth, ocean, space Emission Emission analysis EMISSION SPECTROSCOPY Emissions control Evolution Exact sciences and technology EXTREME ULTRAVIOLET RADIATION GAMMA ASTRONOMY HEATING IRON IONS MAGNETIC FLUX PHOTON EMISSION SOLAR CORONA SPATIAL DISTRIBUTION SUN TEMPERATURE DISTRIBUTION Uncertainty X RADIATION
title	A SYSTEMATIC SURVEY OF HIGH-TEMPERATURE EMISSION IN SOLAR ACTIVE REGIONS
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