   September 2001

23 Aug – 19 September 
The Interaction Between Coronal Mass Ejections and Streamers: A Statistical View over 15 Years (1996?–?2010)
O. Floyd, P. Lamy, A. Llebaria
Solar Physics, April 2014, Volume 289, Issue 4, pp 1313-1339; File


1-3 No EIT data 

2 Sep

Using CME Progenitors to Assess CME Geoeffectiveness
Kashvi Mundra3,1, V. Aparna2, and Petrus Martens2
2021 ApJS 257 33
https://iopscience.iop.org/article/10.3847/1538-4365/ac3136/pdf
https://doi.org/10.3847/1538-4365/ac3136

2-3 Sept
X-ray Flare Spectra from the DIOGENESS Spectrometer and its concept applied to ChemiX on the Interhelioprobe spacecraft
J. Sylwester, Z. Kordylewski, S. Plocieniak, M. Siarkowski, M. Kowalinski, S. Nowak, W. Trzebinski, M. Steslicki, B. Sylwester, E. Stanczyk, R. Zawerbny, Z. Szaforz, K. J. H. Phillips, F. Farnik, A. Stepanov
Solar Phys.,  2014
http://arxiv.org/pdf/1411.0850v1.pdf

+4 - 23 UT: interesting SE chains at EIT and Nobe
     !!Good noise storm at compressed spectrum!!

5 - !Interesting/outstanding chains, particularly in association
     with large SW CME at 16 UT!

5-19
A CASE OF FILAMENT -  ACTIVE REGION INTERACTION
C. DUMITRACHE and L. DUMITRU
Publ. Astron. Obs. Belgrade No. 90 (2010), 125 - 130

6 - !Interesting/outstanding chains

7 - !Interesting/outstanding chains

Possible manifestation of large-scale transverse oscillations of coronal loops in solar microwave emission
M. L. Khodachenko1, K. G. Kislyakova2, T. V. Zaqarashvili1,3, A. G. Kislyakov2, M. Panchenko1, V. V. Zaitsev4, O. V. Arkhypov5 and H. O. Rucker1
A&A 525, A105 (2011)

8 - !Interesting/outstanding chains
    !!21-22 UT: Significant NE filament disappearance!! See Events!

A CASE OF FILAMENT -  ACTIVE REGION INTERACTION
C. DUMITRACHE and L. DUMITRU
Publ. Astron. Obs. Belgrade No. 90 (2010), 125 - 130

Relationship between non-thermal electron energy spectra and GOES classes
R. Falewicz1, P. Rudawy1, and M. Siarkowski2
E-print, Apr 2009, File; A&A



9 - !Interesting/outstanding chains
COMPARISON OF SEISMIC SIGNATURES OF FLARES OBTAINED BY SOHO/MICHELSON DOPPLER IMAGER AND GONG INSTRUMENTS 
S. Zharkov1, V. V. Zharkova2 and S. A. Matthews
2011 ApJ 739 70

Solar radio pulsating structures during September 9, 2001 at meter wavelength
Adolfo L. Mendez Berhondo, Ramon E. Rodriguez Taboada1 and Paolo Zlobec2 
Astrophysics and Space Science, Volume 318 Number 1-2,  73 – 78, 2008

SEISMIC EMISSION FROM A M9.5-CLASS SOLAR FLARE
A.-C. DONEA, D. BESLIU-IONESCU, P.S. CALLY, C. LINDSEY, and V.V. ZHARKOVA
Solar Physics (2006) 239: 113–135.


10 - !Interesting/outstanding chains

11 - !Interesting/outstanding chains
      !14 UT: NE filament disappearance, partial halo; see Events!! 
Quasi-periodic Oscillations of Solar Active Regions in Connection with Their Flare Activity – NoRH Observations 
V. E. Abramov-Maximov, G. B. Gelfreikh and K. Shibasaki
Solar Physics, Volume 273, Number 2, 403-412, 2011

12 - !Interesting/outstanding chains

13 - !Interesting/outstanding chains

+14 - Interesting chain
     !! 21:48 UT: strong SE CME and eruption (see Events)

+15 - !Interesting/outstanding chains
      !!11:10 UT: big SW CME and our type II burst!! See Events

New Parameter in the Description of Solar Cosmic Ray Events—Energy of Balance between Solar and Galactic Protons
Yu. I. Logachev, G. A. Bazilevskaya, E. I. Daibog, V. N. Ishkov, L. L. Lazutin, G. M. Surova
Physics of Atomic Nuclei   May 2018, Volume 81, Issue 3, pp 384–389
https://link.springer.com/content/pdf/10.1134%2FS106377881803016X.pdf

Estimating the Height of CMEs Associated with a Major SEP Event at the Onset of the Metric Type II Radio Burst during Solar Cycles 23 and 24 
 P. Makela, N. Gopalswamy, S. Akiyama, H. Xie, and S. Yashiro
ApJ    2015
http://cdaw.gsfc.nasa.gov/publications/makela/makela2015ApJ.pdf

Large Solar Energetic Particle Events Associated with Filament Eruptions Outside of Active Regions
N. Gopalswamy, P. Makela, S. Akiyama, S. Yashiro, H. Xie, N. Thakur, S. W. Kahler
ApJ       2015
http://arxiv.org/ftp/arxiv/papers/1504/1504.00709.pdf

Possible manifestation of large-scale transverse oscillations of coronal loops in solar microwave emission
M. L. Khodachenko1, K. G. Kislyakova2, T. V. Zaqarashvili1,3, A. G. Kislyakov2, M. Panchenko1, V. V. Zaitsev4, O. V. Arkhypov5 and H. O. Rucker1
A&A 525, A105 (2011)

SPATIAL SEISMOLOGY OF A LARGE CORONAL LOOP ARCADE FROM TRACE AND EIT OBSERVATIONS
OF ITS TRANSVERSE OSCILLATIONS
E. Verwichte, C. Foullon, and T. Van Doorsselaere
Astrophysical Journal, 717:458–467, 2010

STRENGTH OF CORONAL MASS EJECTION-DRIVEN SHOCKS NEAR THE SUN
AND THEIR IMPORTANCE IN PREDICTING SOLAR ENERGETIC PARTICLE EVENTS
Chenglong Shen, Yuming Wang, Pinzhong Ye, X. P. Zhao, Bin Gui, and S. Wang
The Astrophysical Journal, 670:849–856, 2007 



+16 - !Interesting/outstanding chains; Illustrations

Extreme Ultraviolet Spectra of Solar Flares from the Extreme Ultraviolet Spectroheliograph SPIRIT Onboard the CORONAS-F Satellite
S. Shestov, A. Reva1, and S. Kuzin
2014 ApJ 780 15
http://arxiv.org/pdf/1510.03652v1.pdf

X-ray Flare Spectra from the DIOGENESS Spectrometer and its concept applied to ChemiX on the Interhelioprobe spacecraft
J. Sylwester, Z. Kordylewski, S. Plocieniak, M. Siarkowski, M. Kowalinski, S. Nowak, W. Trzebinski, M. Steslicki, B. Sylwester, E. Stanczyk, R. Zawerbny, Z. Szaforz, K. J. H. Phillips, F. Farnik, A. Stepanov
Solar Phys.,  2014
http://arxiv.org/pdf/1411.0850v1.pdf

++17 - !Interesting/outstanding chains; Illustrations
       !!08:20 UT: spectacular type III/II bursts with clear
                   intermediate-drifting bursts; 
                   broken type II burst (see 21 Aug)
                   08:25: Very clear and peculiar pulsations!!!  
                   partial halo CME
                   See Events  

Solar Energetic Particles and Associated EIT Disturbances in Solar Cycle 23
R. Miteva, K.-L. Klein, I. Kienreich, M. Temmer, A. Veronig, O. E. Malandraki
E-print, Feb 2014, File; Solar Phys.
http://arxiv.org/pdf/1402.1676v1.pdf

Filament eruption, flare, coronal dimming and associated partial halo CME on 2001 September 17
Y.C. Jiang, L.P. Li, S.Q. Zhao, Q.Y. Li, H.D. Chen, S.L. Ma
New Astronomy, Volume 11, Issue 8, July 2006, Pages 612-618

Наша статья с НИРФИ

Чернов (Chernov)

18 - interesting chains
     !!15 and 21 UT: two halo CME, detailed data at 171 A

Relationship between non-thermal electron energy spectra and GOES classes
R. Falewicz1, P. Rudawy1, and M. Siarkowski2
E-print, Apr 2009, File; A&A



+19 - !!07:20: clear type II burst, big W CME
      interesting chains, detailed data at 171 A; see Events


**************************
High CME activity
**************************



20 - interesting chains; 18 UT: halo CME 

+21 - Interesting chains
     02 UT: SE ejection at NOBE 
     !!08 UT: big SE CME; see Events

Solar Magnetic Flux Ropes                                   Review
Boris Filippov, Olesya Martsenyuk, Abhishek K. Srivastava, and Wahab Uddin 
Journal of Astrophysics & Astronomy,      2015
http://arxiv.org/ftp/arxiv/papers/1501/1501.02562.pdf

ION ANISOTROPY AND HIGH-ENERGY VARIABILITY OF LARGE SOLAR
PARTICLE EVENTS: A COMPARATIVE STUDY
Lun C. Tan,1 Donald V. Reames, and Chee K. Ng
The Astrophysical Journal, 678:1471Y1479, 2008
http://www.journals.uchicago.edu/doi/pdf/10.1086/533490

+22 - Interesting chains
      !! 09:20 UT: III+II, probably from an N region 

+23 - Interesting chains
      17 UT: clear halo CME 

Stealth Coronal Mass Ejections: A Perspective
Timothy A. Howard, Richard A. Harrison
Solar Physics, July 2013, Volume 285, Issue 1-2, pp 269-280, File     

++24 - Interesting chains
      !! 0930: X2.6/2B flare, clear and big halo CME; strong proton flux
         Our spectrum: 09:30 UT - cont.; 
                       10:20 UT - enhancement of the CONT; 
                                  low-freq. storm of numerous type III bursts 
        See Hudson et al, 2003 http://solar.physics.montana.edu/cgi-bin/eprint/full_abstract.pl?entry=518   

Radio bursts observed during solar eruptive flares and their schematic summary      Review
Marian Karlicky
2023
https://arxiv.org/pdf/2307.07144.pdf

Evidence for Energetic Neutral Hydrogen Emission from Solar Particle Events
G. M. Mason1, M. E. Greenspan7,2, S. G. Kanekal3, R. A. Leske4, M. D. Looper5, J. E. Mazur6, and R. A. Mewaldt4
2021 ApJ 923 195
https://iopscience.iop.org/article/10.3847/1538-4357/ac2fa2/pdf
https://doi.org/10.3847/1538-4357/ac2fa2

On the Emission Region of Type II Radio Bursts in Interplanetary Shock Fronts
E. Aguilar-Rodriguez & P. Corona-Romero 
Solar Physics volume 295, Article number: 77 (2020) 
https://link.springer.com/content/pdf/10.1007/s11207-020-01643-x.pdf

Solar Energetic Particle Events with Protons Above 500 MeV Between 1995 and 2015 Measured with SOHO/EPHIN
P. Kuhl, N. Dresing, B. Heber, A. Klassen
Solar Physics    January 2017, 292:10
http://link.springer.com/article/10.1007/s11207-016-1033-8

Large gradual solar energetic particle events           Review
Mihir Desai, Joe Giacalone
Living Reviews in Solar Physics, December 2016, 13:3
http://solarphysics.livingreviews.org/

Perpendicular Diffusion in the Transport of Solar Energetic Particles from Unconnected Sources: The Counter-streaming Particle Beams Revisited
H.-Q. He
2015 ApJ 814 157
http://arxiv.org/pdf/1512.00027v1.pdf

Kinematics of ICMEs/shocks: blast wave reconstruction using type II emissions
P. Corona-Romero, J.A. Gonzalez-Esparza, E. Aguilar-Rodriguez, V. de-la-Luz, J.C. Mejia-Ambriz
Solar Phys.     2015
http://arxiv.org/pdf/1501.05551v1.pdf

Structure and Evolution of Magnetic Fields Associated with Solar Eruptions (Invited Review)
Haimin Wang, Chang Liu
Research in Astronomy and Astrophysics,    2015
http://arxiv.org/pdf/1412.8676v1.pdf  File

Solar Energetic Particles and Associated EIT Disturbances in Solar Cycle 23
R. Miteva, K.-L. Klein, I. Kienreich, M. Temmer, A. Veronig, O. E. Malandraki
E-print, Feb 2014, File; Solar Phys.
http://arxiv.org/pdf/1402.1676v1.pdf

Origin of wide-band IP type II bursts
S. Pohjolainen, H. Allawi, E. Valtonen
E-print, Aug 2013; A&A 558, A7 (2013)

AN EFFECT OF PERPENDICULAR DIFFUSION ON THE ANISOTROPY OF SOLAR ENERGETIC PARTICLES FROM UNCONNECTED SOURCES 
G. Qin1, H.-Q. He1,2 and M. Zhang
2011 ApJ 738 28

OBSERVATIONAL EVIDENCE OF BACK REACTION ON THE SOLAR SURFACE ASSOCIATED WITH CORONAL MAGNETIC RESTRUCTURING IN SOLAR ERUPTIONS
Haimin Wang and Chang Liu
Astrophysical Journal Letters, 716:L195–L199, 2010 June


A STATISTICAL STUDY OF THE POST-IMPULSIVE-PHASE ACCELERATION OF FLARE-ASSOCIATED CORONAL MASS EJECTIONS
X. Cheng1, J. Zhang1,2, M. D. Ding1, and W. Poomvises2
Astrophysical Journal, 712:752–760, 2010 March, File


OBSERVATIONAL EVIDENCE ON THE PRESENCE OF AN OUTER REFLECTING BOUNDARY IN SOLAR ENERGETIC PARTICLE EVENTS
Lun C. Tan1,4, Donald V. Reames1,5, Chee K. Ng1,4, Oskari Saloniemi2 and Linghua Wang3,6
ApJ 701 1753-1764, 2009   doi: 10.1088/0004-637X/701/2/1753


Identification of a Peculiar Radio Source in the Aftermath of Large Coronal Mass Ejection Events
Angelos Vourlidas, Monique Pick, Sang Hoang, and Pascal Demoulin
The Astrophysical Journal Letters, Volume 656, Number 2, Page L105, 2007, File 

SOLAR TYPE II RADIO BURSTS AND IP TYPE II EVENTS
H. V. Cane and W. C. Erickson
Astrophysical Journal, 623:1180–1194, 2005; File

LOW CORONAL SIGNATURES OF LARGE SOLAR ENERGETIC PARTICLE EVENTS
Nariaki V. Nitta,1 Edward W. Cliver,2 and Allan J. Tylka3
Astrophysical Journal, 586:L103–L106, 2003, File

+25 - Chains on the proton-snow background
     !! 09:20 UT: III+II, weak, low-frequency; similar to 22d
     !! 22 UT: Yohkoh large/long NE brightening  

Ring of Stations Method in Cosmic Rays Variations Research
M. A. Abunina, A. V. Belov, E. A. Eroshenko, A. A. Abunin, V. G. Yanke, A. A. Melkumyan, N. S. Shlyk & I. I. Pryamushkina 
Solar Physics volume 295, Article number: 69 (2020) 
https://link.springer.com/content/pdf/10.1007/s11207-020-01639-7.pdf

Precursor Effects in Different Cases of Forbush Decreases
M. Papailiou • H. Mavromichalaki • A. Belov • E. Eroshenko • V. Yanke
Solar Phys (2012) 276:337–350, File

Statistics of Flaring Loops Observed by the Nobeyama Radioheliograph. 
III. Asymmetry of Two Footpoint Emissions
Guangli Huang, Qiwu Song and Yu Huang
2010 ApJ 723 1806-1816

26 - Interesting/complicated chains
      
++27 - Interesting/complicated chains
      Large SW CME at 04 and 09 UT; post-eruption loops/arcade
      !!Our compressed spectrum with a strong dymanical CONT ILLUSTRATION 

Formation of Radio Type II Bursts During a Multiple Coronal Mass Ejection Event
Firas Al-Hamadani, Silja Pohjolainen, Eino Valtonen
Solar Physics  December 2017, 292:183
https://link.springer.com/content/pdf/10.1007%2Fs11207-017-1208-y.pdf

++28 - Our time: Two large CME from different regions
      !!08:15 UT: large (halo) E CME, type II burst surrounding by type III bursts
      !!09:30 UT: large S/SW CME, CONT  
      !!See Events; A candidate for canalized dimmings!! ILLUSTRATION  

Radio bursts observed during solar eruptive flares and their schematic summary      Review
Marian Karlicky
2023
https://arxiv.org/pdf/2307.07144.pdf

The Roles of Reconnected Flux and Overlying Fields in CME Speeds
Minda Deng, Brian T. Welsch
2015
http://arxiv.org/pdf/1504.02905v1.pdf

EVIDENCE FOR MIXED HELICITY IN ERUPTING FILAMENTS
K. Muglach1, Y.-M. Wang, and B. Kliem
Astrophysical Journal, 703:976–981, 2009 September 20


+29 - 10-11 UT: halo CME from the central sector of the disk
                See Events        
High rigidity Forbush decreases: due to CMEs or shocks?
Arun Babu, H. M. Antia, S. R. Dugad, S. K. Gupta, Y. Hayashi, S. Kawakami, 
P. K. Mohanty, T. Nonaka, A. Oshima, P. Subramanian
E-print, April 2013; A&A
http://arxiv.org/abs/1304.5343


+30 - Interesting/complicated chains