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The total solar irradiance, UV emission and magnetic flux during the last solar cycle minimum
We have analyzed the total solar irradiance (TSI) and the spectral solar irradiance as ultraviolet emission (UV) in the wavelength range 115-180 nm, observed with the instruments TIM and SOLSTICE within the framework of SORCE (The Solar Radiation and Climate Experiment) during the long solar minimum...
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| Published in: | arXiv.org 2013-07 |
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| creator | Benevolenskaya, E E Kostuchenko, I G |
| description | We have analyzed the total solar irradiance (TSI) and the spectral solar irradiance as ultraviolet emission (UV) in the wavelength range 115-180 nm, observed with the instruments TIM and SOLSTICE within the framework of SORCE (The Solar Radiation and Climate Experiment) during the long solar minimum between the 23rd and 24th cycles. The wavelet analysis reveals an increase in the magnetic flux in the latitudinal zone of the sunspot activity, accompanied with an increase in the TSI and UV on the surface rotation timescales of solar activity complexes. In-phase coherent structures between the mid-latitude magnetic flux and TSI/UV appear when the long-lived complexes of the solar activity are present. These complexes, which are related to long- lived sources of magnetic fields under the photosphere, are maintained by magnetic fluxes reappearing in the same longitudinal regions. During the deep solar minimum (the period of the absence of sunspots) a coherent structure has been found, in which the phase between the integrated mid-latitude magnetic flux is ahead of the total solar irradiance on the timescales of the surface rotation. |
| doi_str_mv | 10.48550/arxiv.1307.6257 |
| format | article |
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The wavelet analysis reveals an increase in the magnetic flux in the latitudinal zone of the sunspot activity, accompanied with an increase in the TSI and UV on the surface rotation timescales of solar activity complexes. In-phase coherent structures between the mid-latitude magnetic flux and TSI/UV appear when the long-lived complexes of the solar activity are present. These complexes, which are related to long- lived sources of magnetic fields under the photosphere, are maintained by magnetic fluxes reappearing in the same longitudinal regions. 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| language | eng |
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| source | Publicly Available Content Database |
| subjects | Irradiance Latitude Magnetic flux Photosphere Rotation Solar activity Solar cycle Solar radiation Solar rotation Sunspot cycle Sunspots Ultraviolet emission Ultraviolet radiation Ultraviolet spectra Wavelet analysis |
| title | The total solar irradiance, UV emission and magnetic flux during the last solar cycle minimum |
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