Do the solar flares' locations illustrate the boundaries of the solar inner layers?
The angular distance of the heliographical or helioprojective coordinates of the solar flares to the projective point of the center of the Sun on the solar disk has been studied during the periods 1975--2021 for GOES events and 2002--2021 for RHESSI events. It gives a specific distribution hereafter...
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| description | The angular distance of the heliographical or helioprojective coordinates of the solar flares to the projective point of the center of the Sun on the solar disk has been studied during the periods 1975--2021 for GOES events and 2002--2021 for RHESSI events. It gives a specific distribution hereafter Distance. The distribution remains the same without significant changes in the importance value of the solar flare too, with the different coordinate systems, different GOES classifications, and different observational satellites. In addition, it gives the same distribution during each solar cycle. The curvature of the distance distribution has four peaks, which are denoted by the four central rings around the center of the solar disk that look like the solar inner layers in the background. 1) The core circle [0--15\(^{\circ}\)]: it is a projection of the solar core onto the solar disk. 2) Radiative ring [15\(^{\circ}\)--45\(^{\circ}\)]. 3) The convection ring [45\(^{\circ}\)--55\(^{\circ}\)]. The limb ring [80\(^{\circ}\)--90\(^{\circ}\)]. A large number of solar flares occurred in the radiative and convection rings. While we have a few events in the core and limb rings. |
| doi_str_mv | 10.48550/arxiv.2209.04755 |
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It gives a specific distribution hereafter Distance. The distribution remains the same without significant changes in the importance value of the solar flare too, with the different coordinate systems, different GOES classifications, and different observational satellites. In addition, it gives the same distribution during each solar cycle. The curvature of the distance distribution has four peaks, which are denoted by the four central rings around the center of the solar disk that look like the solar inner layers in the background. 1) The core circle [0--15\(^{\circ}\)]: it is a projection of the solar core onto the solar disk. 2) Radiative ring [15\(^{\circ}\)--45\(^{\circ}\)]. 3) The convection ring [45\(^{\circ}\)--55\(^{\circ}\)]. The limb ring [80\(^{\circ}\)--90\(^{\circ}\)]. A large number of solar flares occurred in the radiative and convection rings. 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| subjects | Convection Curvature Physics - Solar and Stellar Astrophysics Satellite observation Solar cycle Solar flares |
| title | Do the solar flares' locations illustrate the boundaries of the solar inner layers? |
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