DETEKSI OTOMATIS DAERAH TERANG DI SISI JAUH MATAHARI UNTUK PREDIKSI KEMUNCULAN BINTIK
Abstract
Active regions that responsible to flare occurrences often appear at east limb as mature active regions. Therefore, we use EUVI instrument onboard STEREO-A spacecraft to observe far-side extreme ultra violet (EUV) for the automatic detection system. The procedure running on the system is by combining the latest STEREO/EUVI and the SDO/AIA data into a single composite heliographic coordinate system map. Active regions are detected based on their intensities on the heliographic map and their duration after they are detected. The program has successfully detected far-side bright-regions in an automatically  near real-time system. 85 % of active regions that have been detected for more than 4 days appear in the east limb as sunspots. On the other hand, bright-regions that have detected between 2-3 days develop to be plagues or decay before reaching the east limb. We find that the different between the mean intensities of the bright-regions that develop to sunspot and no-sunspot regions is about 200 DN//s, which is insignificant to determine the threshold.Â
Keywords
Full Text:
PDFReferences
Braun, D. C., C. Lindsey, 2001. Seismic Imaging of the Far Hemisphere of the Sun, Astrophysical Journal Letters 560, L189.
Doschek, G.A., H.P. Warren, L.K. Harra, J.L. Culhane, T. Watanabe, H. Hara, 2018. Photospheric and Coronal Abundances in an X8.3 Class Limb Flare, The Astrophysical Journal 853.
Emslie, A.G., B.R. Dennis, A.Y. Shih, P. C.Chamberlin, R.A. Mewaldt, C.S. Moore, G.H. Share, A. Vourlidas, B.T. Welsch, 2012. Global energetics of thirty-eight large solar eruptive events, The Astrophysical Journal 759.
Gburek, S., J. Sylwester, B. Sylwester, B.R. Dennis, K.J.H. Phillips, 2005. Multi-wavelength study of a strong impulsive solar limb flare on 2002 August 3, Advances in Space Research, 35.
Gold, T., F. Hoyle, 1960. On the Origin of Solar Flares, Monthly Notices of the Royal Astronomical Society, 120(2), 89-105
Harvey, J. W., F. Hill, R.P. Hubbard, J.R. Kennedy, J.W. Leibacher, J.A. Pintar, P.A. Gilman, R.W. Noyes, A.M. Title, J. Toomre, R.K. Ulrich, A. Bhatnagar, J.A. Kennewell, W. Marquette, J. Patron, O. Saa, E. Yasukawa, 1996, The Global Oscillation Network Group (GONG) Project, Science, 272-1284.
Hernandez-Perez, A., Y. Su, A.M. Veronig, J. Thalmann, P. Gömöry, B. Joshi, Pre-eruption Processes: Heating, Particle Acceleration, and the Formation of a Hot Channel before the 2012 October 20 M9.0 Limb Flare, The Astrophysical Journal, 874.
Howard, R.A., J.D. Moses, A. Vourlidas, J.S. Newmark, D.G. Socker, S.P. Plunkett, C.M. Korendyke, J.W. Cook, A. Hurley, J.M. Davila, W.T. Thompson, O.C. St Cyr, E. Mentzell, K. Mehalick, J.R. Lemen, J.P. Wuelser, D.W. Duncan, T.D. Tarbell, C.J. Wolfson, A. Moore, R.A. Harrison, N.R. Waltham, J. Lang, C.J. Davis, C.J. Eyles, H. Mapson-Menard, G.M. Simnett, J.P. Halain, J.M. Defise, E. Mazy, P. Rochus, R. Mercier, M.F. Ravet, F. Delmotte, F. Auchere, J.P. Delaboudiniere, V. Bothmer, W. Deutsch, D. Wang, N. Rich, S. Cooper, V. Stephens, G. Maahs, R. Baugh, D. McMullin, T. Carter, 2008. Sun Earth Connection Coronal and Heliospheric Investigation (SECCHI), Space Science Reviews 136.
Hudson, H.S., 2011. Global Properties of Solar Flares, Space Science Reviews, 158(1), 5-41
Kaiser, M.L., T.A. Kucera, J.M. Davila, O.C. St. Cyr, M. Guhathakurta, E. Christian, 2008. The STEREO Mission: An Introduction, Space Science Reviews, 136.
Karlicky, M., B. Chen, D.E. Gary, J. Kasparova, J. Rybak, 2020. Drifting Pulsation Structure at the Very Beginning of the 2017 September 10 Limb Flare, The Astrophysical Journal, 889.
Liewer, P.C., J. Qiu, C. Lindsey, 2017. Comparison of Helioseismic Far-Side Active Region Detections with STEREO Far-Side EUV Observations of Solar Activity, Solar Physics, 292.
Lindsey, C., 2000. Seismic Images of the Far Side of the Sun, Science, 287.
Mumford, S.J., S. Christe, D. Pérez-Suárez, J. Ireland, A.Y. Shih, A.R. Inglis, S. Liedtke, R.J. Hewett, F. Mayer, K. Hughitt, N. Freij, T.T. Meszaros, S.M. Bennett, M. Malocha, J. Evans, A. Agrawal, A. J. Leonard, T.P Robitaille, B. Mampaey, J.I. Campos-Rozo, M. Kirk, 2015. SunPy—Python for solar physics, Computational Science & Discovery, 8.
Parker, E. N., 1963. The Solar-Flare Phenomenon and the Theory of Reconnection and Annihilation of Magnetic Fields, Astrophysical Journal Supplement, 8, 177.
Scherrer, P.H., J. Schou, R.I. Bush, A.G. Kosovichev, R.S. Bogart, J.T. Hoeksema, Y. Liu, T.L. Duvall Jr., J. Zhao, A.M. Title, C.J. Schrijver, T.D. Tarbell, dan S. Tomczyk, 2012. The Helioseismic and Magnetic Imager (HMI) Investigation for the Solar Dynamics Observatory (SDO), Solar Physics, 275:207-227.
Schou, J., P.H. Scherrer, R.I. Bush, R.Wachter, S. Couvidat, M.C. RabelloSoares, R.S.Bogart, J.T. Hoeksema, Y. Liu, T.L. DuvallJr., D.J. Akin, B.A. Allard, J.W. Miles, R. Rairden, R.A. Shine, T.D. Tarbell, A.M. Title, C.J. Wolfson, D.F. Elmore, A.A. Norton, dan S. Tomczyk, 2012. Design and Ground Calibration of the Helioseismic and Magnetic Imager (HMI) Instrument on the Solar Dynamics Observatory (SDO), Solar Physics, 275, 229-259.
Thompson, W.T., 2006. Coordinate System for Solar Image Data, Astronomy & Astropysics, 449, 791-803.
Virtanen, P., R. Gommers, T.E. Oliphant, M. Haberland, T. Reddy, D. Cournapeau, E. Burovski, P. Peterson, W. Weckesser, J. Bright, S.J. van der Walt, M. Brett, J. Wilson, K.J. Millman, N. Mayorov, A.R.J. Nelson, E. Jones, R. Kern, E. Larson, C.J. Carey, A. Polat, Y. Feng, E.W. Moore, J. VanderPlas, D. Laxalde, J. Perktold, R. Cimrman, I. Henriksen, E.A. Quintero, C.R. Harris, A. M. Archibald, A.H. Ribeiro, F. Pedregosa, P. van Mulbregt, 2020. SciPy 1.0: fundamental algorithms for scientific computing in Python, Nature Methods.
Refbacks
- There are currently no refbacks.