October 2003 1 - 3: No EIT observations, bakeout 4 - 5: CH and chasins (inside) 6 - 7: 10-12 min cadence simultaneously at 195 and 284 A 8 - 12 min cadence at 284 A 9 - 11: CH, chains 9 - A Study of the Orientation of Interplanetary Magnetic Clouds and Solar Filaments Yuming Wang, Guiping Zhou, Pinzhong Ye, S. Wang, and Jingxiu Wang The Astrophysical Journal, 651:1245-1255, 2006 +11 - 22 UT: frontside halo CME Recent Results on the Fine Structure in Cosmic Radio Emission Book Zebra Pattern in Solar and Pulsar Radio Emission G.P. Chernov, V. Fomichev, S. Fainshtein LAP LAMBERT Academic Publishing 2021 File +12 - : large "islands" inside a CH +12 - 23 UT: significant SW eruption +13 - 04 UT: significant SW eruption and 4-line dimmings; See Events! Dimensionality of Solar Magnetic Reconnection Review Jeongwoo Lee Reviews of Modern Plasma Physics 2022 https://link.springer.com/epdf/10.1007/s41614-022-00096-y https://doi.org/10.1007/s41614-022-00096-y 14 - 17: CH ------------------------------------------------------------------------------------------------------------------- !!! 18 Oct - 4 Nov 2003 Very High activity from two large region, X-class flares, interconnected dimmings and chains, large CMEs http://soho.nascom.nasa.gov/hotshots/ RHESSI Major Events: http://hessi.ssl.berkeley.edu/~dsmith/hessi/HME.html A new approach to the maser emission in the solar corona Stephane Regnier A&A 2015 http://arxiv.org/pdf/1507.07350v1.pdf A study on the relationship of type III radio bursts CME and solar flares during the active period October-November 2003 Michaella Thanassa, Eleftheria Mitsakou, Panagiota Preka-Papadema, Xenophon Moussas, Panagiotis Tsitsipis and Athanasios Kontogeorgos Proceedings of the International Astronomical Union / Volume 4 / Symposium S257, pp 361 – 363, Published online: 16 Ìàðò 2009 http://journals.cambridge.org/action/displayIssue?iid=4866212 MHD simulations of the global solar corona around the Halloween event in 2003 using the synchronic frame format of the solar photospheric magnetic field Keiji Hayashi, Xue Pu Zhao, Yang Liu JOURNAL OF GEOPHYSICAL RESEARCH, VOL. 113, A07104, doi:10.1029/2007JA012814, 2008 http://dx.doi.org/10.1029/2007JA012814 ÊÐÓÏÍÎÌÀÑØÒÀÁÍÀß ÀÊÒÈÂÍÎÑÒÜ Â ÑÎËÍÅ×ÍÛÕ ÝÐÓÏÒÈÂÍÛÕ ÑÎÁÛÒÈßÕ ÎÊÒßÁÐß–ÍÎßÁÐß 2003 ã. ÏÎ ÄÀÍÍÛÌ SOHO/EIT È. Ì. ×åðòîê1, Â. Â. Ãðå÷í åâ2 ÀÑÒÐÎÍÎÌÈ×ÅÑÊÈÉÆÓÐÍÀË, 2005, òîì 82,¹2, ñ. 180–192 Violent solar events of October–November 2003 as recorded by IZMIRAN radio observations I. M. CHERTOK*, V. V. FOMICHEV, A. A. GNEZDILOV, R. V. GORGUTSA, A. K. MARKEEV and D. E. SOBOLEV Astronomical and Astrophysical Transaction, Vol. 24, No. 1, February 2005, 45–52 CORONAS-F/SPIRIT EUV observations of October–November 2003 solar eruptive events in combination with SOHO/EIT data, Grechnev, V. V., I. M. Chertok, V. A. Slemzin, S. V. Kuzin, A. P. Ignat’ev, A. A. Pertsov, I. A. Zhitnik, J.-P. Delaboudinie`re, and F. Auche`re (2005) J. Geophys. Res., 110, A09S07, Yermolaev et al. (2005) Solar and Heliospheric Phenomena in October–November 2003: Causes and Effects I. S. Veselovsky, M. I. Panasyuk, S. I. Avdyushin, et al. Cosmic Research, Vol. 42, No. 5, 2004, pp. 435–488. Translated from Kosmicheskie Issledovaniya, Vol. 42, No. 5, 2004, pp. 453–508. ------------------------------------------------------------------------------------------------------------------- Violent Sun-Earth Connection Events of October-November 2003 http://www.agu.org/journals/sw/?content=specialsections&ssid=VIOLCONN1 The magnitude and effects of extreme solar particle events Piers Jiggens*, Marc-Andre Chavy-Macdonald, Giovanni Santin, Alessandra Menicucci, Hugh Evans and Alain Hilgers J. Space Weather Space Clim. 4 (2014) A20 http://www.swsc-journal.org/articles/swsc/pdf/2014/01/swsc130038.pdf -------------------------------------------------------------------------- +18 - 12 min cadence at 304 A; E-activity; large CME +16 UT: large SE CME and eruption +19 UT: clear chains inside a CH in all 4 lines ; Illustrations! +22-23 UT: SE near-limb eruption at 304 A and large SE CME +19 - E-activity; several large CMEs; Interesting Chains +06:20 UT: M1.9 flare +17 UT: X1 flare, significant SE eruption, dimmings, halo CMEs; See Events!! Noise storm +20 - E-activity; 12 min cadence at 304 A +07:20 UT: M1.9; 12_min cadence flare at 304 A Noise storm Particle Acceleration in Plasmoid Ejections Derived from Radio Drifting Pulsating Structures N. Nishizuka1, M. Karlicky2, M. Janvier3, and M. Barta 2015 ApJ 799 126 http://arxiv.org/pdf/1412.7904v1.pdf Hui Li. RHESSI Spectral Analysis of the 1N/M1.9 flare of 20 October 2003. E-print. +21 - E-activity from 2 regions; +03:30 UT: E halo CME (backside ?); C7.9 flare +21 UT: large E CME Noise storm Narrowband Gyrosynchrotron Bursts: Probing Electron Acceleration in Solar Flares Gregory D. Fleishman, Gelu M. Nita, Eduard P. Kontar, Dale E. Gary ApJ 2016 http://arxiv.org/pdf/1605.00948v1.pdf Solar Sources of Geoeffective CMEs: a SOHO/EIT View Andrei N. Zhukov1,2 Coronal and Stellar Mass Ejections Proceedings IAU Symposium No. 226, 2005 K. P. Dere, J. Wang & Y. Yan, eds. See File at E:\Chertok_new\Library\Papers\2005\IAU_226 21-24 Blowout Jets and Impulsive Eruptive Flare in a Bald-Patch Topology R. Chandra, C.H. Mandrini, B. Schmieder, B. Joshi, G.D. Cristiani, H. Cremades, E. Pariat, F.A. Nuevo, A.K. Srivastava, W. Uddin A&A 598, A41 (2017) https://arxiv.org/pdf/1610.01918v1.pdf File +22 - E and E/central activity from 2 regions; +>05-07 UT: filament eruption, channeled dimmings (propagating?), halo CME; See Events!! +20 UT: M9.9 flare and E-limb eruption. Noise storm The Low-High-Low Trend of Type III Radio Burst Starting Frequencies and Solar Flare Hard X-rays Hamish A. S. Reid, Nicole Vilmer, Eduard P. Kontar A&A, 2014 http://arxiv.org/pdf/1403.1839v1.pdf ON THE RELATION OF ABOVE-THE-LOOP AND FOOTPOINT HARD X-RAY SOURCES IN SOLAR FLARES S. Ishikawa1,2,3, Sam Krucker1,4, T. Takahashi2,3 and R. P. Lin 2011 ApJ 737 48 Coronal Mass Ejections, Type II Radio Bursts, and Solar Energetic Particle Events in the SOHO Era N. Gopalswamy1, S. Yashiro2, S. Akiyama2, P. Makela2, H. Xie2, M. L. Kaiser1, R. A. Howard3 and J. L. Bougeret4 E-print, Feb 2008, File; Annales Geophysicae 26, 3033–3047, 2008. sci-hub.tw/10.5194/angeo-26-3033-2008 https://www.ann-geophys.net/26/3033/2008/angeo-26-3033-2008.pdf ++23 - E and E/central activity from 2 regions; ++08:20 UT: E-limb X5.7 flare, followed by a spectacular CHAIN (at the place of the 22d dimming), global disturbances; !!! See Events interesting fast-drifting type II burst at our spectrum; large CME!!! +20 UT: X1 flare, some propagating disturbances; See Events Livshits-IsraSW-2013.pdf File Detection of Energy Cutoffs in Flare-accelerated Electrons Fanxiaoyu Xia1,2, Yang Su1,2, Wen Wang3, Linghua Wang3, Alexander Warmuth4, Weiqun Gan1,2, and Youping Li1,2 2021 ApJ 908 111 https://iopscience.iop.org/article/10.3847/1538-4357/abce5c/pdf Statistics of "Cold" Early Impulsive Solar Flares in X-ray and Microwave domains Alexandra L. Lysenko, Alexander T. Altyntsev, Natalia S. Meshalkina, Dmitriy Zhdanov, Gregory D. Fleishman 2018 https://arxiv.org/pdf/1802.09288.pdf Flare Observations Review Arnold O. Benz Living Reviews in Solar Physics December 2017?, 14:2 File This article is a revised version of http://dx.doi.org/10.12942/lrsp-2008-1. https://link.springer.com/content/pdf/10.1007%2Fs41116-016-0004-3.pdf Blowout Jets and Impulsive Eruptive Flare in a Bald-Patch Topology R. Chandra, C.H. Mandrini, B. Schmieder, B. Joshi, G.D. Cristiani, H. Cremades, E. Pariat, F.A. Nuevo, A.K. Srivastava, W. Uddin A&A 598, A41 (2017) https://arxiv.org/pdf/1610.01918v1.pdf File Eruptive processes at the beginning of development of powerful flare-active regions on the sun Astronomy Reports (2008) 52:1015-1026, December 01, 2008 By Kashapova, L. K.; Livshits, M. A. ++24 - E and S/central activity from 2 regions; ++02:40 UT: M7.6 flare; E-limb and disk disturbances; large CME; See Events! ++09:40-10:30 UT: large central/S eruption C5.7-C9.1 flares; 4-line dimmings and coronal wave; See Events!!! ++15:40 UT; large SE/S eruption; C8.9 LDE flare dimmings and chains; See Events!!! Statistical properties of radio flux densities of solar flares Wang Lu, Liu Si-ming, Ning Zong-jun Research in Astronomy and Astrophysics 2020 https://arxiv.org/pdf/2006.02121.pdf Microwave radio emissions as a proxy for coronal mass ejection speed in arrival predictions of interplanetary coronal mass ejections at 1 AU Carolina Salas Matamoros1,2*, Karl Ludwig Klein1 and Gerard Trottet J. Space Weather Space Clim., 7, A2 (2017) http://www.swsc-journal.org/articles/swsc/pdf/2017/01/swsc160027.pdf Blowout Jets and Impulsive Eruptive Flare in a Bald-Patch Topology R. Chandra, C.H. Mandrini, B. Schmieder, B. Joshi, G.D. Cristiani, H. Cremades, E. Pariat, F.A. Nuevo, A.K. Srivastava, W. Uddin A&A 2016 https://arxiv.org/pdf/1610.01918v1.pdf Coronal Mass Ejections Associated with Slow Long Duration Flares U. Bak-Steslicka, S. Kolomanski, T. Mrozek E-print, Feb 2013, File; Solar Phys. 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Kim1 Astrophysical Journal, 706:1438–1450, 2009, File Coronal Mass Ejections, Type II Radio Bursts, and Solar Energetic Particle Events in the SOHO Era N. Gopalswamy1, S. Yashiro2, S. Akiyama2, P. Makela2, H. Xie2, M. L. Kaiser1, R. A. Howard3 and J. L. Bougeret4 E-print, Feb 2008, File; Annales Geophysicae 26, 3033–3047, 2008. sci-hub.tw/10.5194/angeo-26-3033-2008 https://www.ann-geophys.net/26/3033/2008/angeo-26-3033-2008.pdf Results from the Study of an M7.6 Flare and its Associated CME -- Hui Li and Youping Li, E-print, Dec 2006 Advances in Space Research, Volume 41, Issue 6, Pages 962-968, 2008 ++25 - E and S/central activity from 2 regions; ++06 UT: M1.2-1.7 LDE; long interconnecting S dimmings and coronal wave; large SE CME; See Events!!! ++10:30 UT: M1.5 flare; long interconnecting S dimmings and coronal wave; See Events!!! OBSERVATIONS OF MULTIPLE SURGES ASSOCIATED WITH MAGNETIC ACTIVITIES IN AR 10484 ON 2003 OCTOBER 25 Wahab Uddin1, B. Schmieder2, R. Chandra3, Abhishek K. Srivastava1, Pankaj Kumar4, and S. Bisht 2012 ApJ 752 70 25 October- 3 November, 2003. Predicting Flares and Solar Energetic Particle Events: The FORSPEF Tool A. Anastasiadis, A. Papaioannou, I. Sandberg, M. Georgoulis, K. Tziotziou, A. Kouloumvakos, P. Jiggens Solar Physics September 2017, 292:134 Triggering of Remote Flares by Magnetic Flux Emergence Yixing Fu, Brian T. Welsch Solar Phys. 2015 http://arxiv.org/pdf/1504.06633v1.pdf Dynamic Precursors of Flares in Active Region NOAA 10486 M. B. Korsos, N. Gyenge, T. Baranyi, A. Ludmany 2015 http://arxiv.org/pdf/1501.07257v1.pdf 25 Oct-2 Nov Wavelet Analysis of Forbush Decreases at High-Latitude Stations During Geomagnetic Disturbances Roshan Kumar Mishra, Ashok Silwal, Rabin Baral, Binod Adhikari, Carlos Roberto Braga, Sujan Prasad Gautam, Priyanka Kumari Das & Yenca Migoya-Orue Solar Physics volume 297, Article number: 26 (2022) https://link.springer.com/content/pdf/10.1007/s11207-022-01948-z.pdf ++26 - E and W activity from 2 regions; ++03 UT: SW filament eruption ++06:20 UT: SE X1.2 flare in E region, 4-line long dimmings and coronal wave; See Events!!! Very strong radio continuum at our spectrum ++17:20 UT: W X1.2 flare in W region, protons 4-line long dimmings and coronal wave; See Events!!! Solar Energetic Particles: Spatial Extent and Implications of the H and He Abundances Review Donald V. Reames Space Sci. Rev 2022 https://arxiv.org/ftp/arxiv/papers/2205/2205.06883.pdf Energy Spectra vs. Element Abundances in Solar Energetic Particles and the Roles of Magnetic Reconnection and Shock Acceleration Donald V. Reames Solar Phys. 2021 https://arxiv.org/ftp/arxiv/papers/2112/2112.01568.pdf File Konus- Wind and Helicon- Coronas-F observations of solar flares Pal'shin, V. D.; Charikov, Yu. E.; Aptekar, R. L.; Golenetskii, S. V.; Kokomov, A. A.; Svinkin, D. S.; Sokolova, Z. Ya.; Ulanov, M. V.; Frederiks, D. D.; Tsvetkova, A. E. Geomagnetism and Aeronomy, Volume 54, Issue 7, pp.943-948 2014 https://arxiv.org/pdf/1412.2015.pdf https://link.springer.com/content/pdf/10.1134/S0016793214070093.pdf On the Relation between Flare and CME during GLE-SEP and Non-GLE-SEP Events K. A. Firoz1,2, W. Q. Gan2, Y.-J. Moon1, J. Rodriguez-Pacheco3, and Y. P. 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We have explored more explicitly than in previous studies the relationship between different types of CMEs and the associated on-disk activities. 26-28 Deep learning reconstruction of sunspot vector magnetic fields for forecasting solar storms Dattaraj B. Dhuri, Shamik Bhattacharjee, Shravan M. Hanasoge, Sashi Kiran Mahapatra ApJ 2022 https://arxiv.org/pdf/2209.09944.pdf Energy Spectra vs. Element Abundances in Solar Energetic Particles and the Roles of Magnetic Reconnection and Shock Acceleration Donald V. Reames Solar Phys. 2021 https://arxiv.org/ftp/arxiv/papers/2112/2112.01568.pdf File Four Distinct Pathways to the Element Abundances in Solar Energetic Particles Review Donald V. Reames Space Sci. 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Maget Space Weather Volume 18, Issue 6 e2020SW002450 2020 https://sci-hub.tw/10.1029/2020SW002450 https://agupubs.onlinelibrary.wiley.com/doi/epdf/10.1029/2020SW002450 30 Oct-1 Nov Estimating satellite orbital drag during historical magnetic superstorms Denny M. Oliveira , Eftyhia Zesta , Hisashi Hayakawa , Ankush Bhaskar Space Weather 2020 https://doi.org/10.1029/2020SW002472 https://agupubs.onlinelibrary.wiley.com/doi/epdf/10.1029/2020SW002472 ++31- Chains along boundaries of the both polar CHs, Illustration!! ++17 UT: W eruption; See Events!!