Full list of EIS publicatons (keyword: coronal mass ejection)

Compiled from information held in the ADS abstracts service.

Total number of papers: 39

2022

  1. Evolution of Plasma Composition in an Eruptive Flux Rope [0]
    Baker, D., Green, L. M., Brooks, D. H., Démoulin, P., van Driel-Gesztelyi, L., Mihailescu, T., To, A. S. H., Long, D. M., Yardley, S. L., Janvier, M. & Valori, G., ApJ, 924, 17

2021

  1. The source of the major solar energetic particle events from super active region 11944 [10]
    Brooks, David H. & Yardley, Stephanie L., Science Advances, 7, eabf0068

2020

  1. Hinode/EIS Measurements of Active-region Magnetic Fields [11]
    Landi, E., Hutton, R., Brage, T. & Li, W., ApJ, 904, 87

2019

  1. Investigations of a supra-arcade fan and termination shock above the top of the flare-loop system of the 2017 September 10 event [10]
    Cai, Qiangwei, Shen, Chengcai, Raymond, John C., Mei, Zhixing, Warmuth, Alexander, Roussev, Ilia I. & Lin, Jun, MNRAS, 489, 3183

2017

  1. On-Disc Observations of Flux Rope Formation Prior to Its Eruption [38]
    James, A. W., Green, L. M., Palmerio, E., Valori, G., Reid, H. A. S., Baker, D., Brooks, D. H., van Driel-Gesztelyi, L. & Kilpua, E. K. J., Solar Physics, 292, 71
  2. Turbulent Kinetic Energy in the Energy Balance of a Solar Flare [40]
    Kontar, E. P., Perez, J. E., Harra, L. K., Kuznetsov, A. A., Emslie, A. G., Jeffrey, N. L. S., Bian, N. H. & Dennis, B. R., Physical Review Letters, 118, 155101

2016

  1. The Characteristics of Solar X-Class Flares and CMEs: A Paradigm for Stellar Superflares and Eruptions? [44]
    Harra, Louise K., Schrijver, Carolus J., Janvier, Miho, Toriumi, Shin, Hudson, Hugh, Matthews, Sarah, Woods, Magnus M., Hara, Hirohisa, Guedel, Manuel, Kowalski, Adam, Osten, Rachel, Kusano, Kanya & Lueftinger, Theresa, Solar Physics, 291, 1761
  2. Flare-generated Shock Wave Propagation through Solar Coronal Arcade Loops and an Associated Type II Radio Burst [16]
    Kumar, Pankaj, Innes, D. E. & Cho, Kyung-Suk, ApJ, 828, 28
  3. The spectroscopic imprint of the pre-eruptive configuration resulting into two major coronal mass ejections [22]
    Syntelis, P., Gontikakis, C., Patsourakos, S. & Tsinganos, K., A&A, 588, A16

2015

  1. Hα and EUV Observations of a Partial CME [2]
    Christian, Damian J., Jess, David B., Antolin, Patrick & Mathioudakis, Mihalis, ApJ, 804, 147
  2. The Fast Filament Eruption Leading to the X-flare on 2014 March 29 [50]
    Kleint, Lucia, Battaglia, Marina, Reardon, Kevin, Sainz Dalda, Alberto, Young, Peter R. & Krucker, Säm, ApJ, 806, 9
  3. Observations and Modeling of Solar Flare Atmospheric Dynamics [2]
    Li, Y., Acta Astronomica Sinica, 56, 528
  4. The Energetics of a Global Shock Wave in the Low Solar Corona [14]
    Long, David M., Baker, Deborah, Williams, David R., Carley, Eoin P., Gallagher, Peter T. & Zucca, Pietro, ApJ, 799, 224
  5. Identification of coronal sources of the solar wind from solar images in the EUV spectral range [3]
    Slemzin, V. A. & Shugai, Yu. S., Cosmic Research, 53, 47

2014

  1. Coronal behavior before the large flare onset [13]
    Imada, Shinsuke, Bamba, Yumi & Kusano, Kanya, Publications of the Astronomical Society of Japan, 66, S17

2013

  1. Hot Plasma Associated with a Coronal Mass Ejection [8]
    Landi, E., Miralles, M. P., Raymond, J. C. & Hara, H., ApJ, 778, 29
  2. SDO/AIA and Hinode/EIS Observations of Interaction between an EUV Wave and Active Region Loops [29]
    Yang, Liheng, Zhang, Jun, Liu, Wei, Li, Ting & Shen, Yuandeng, ApJ, 775, 39

2012

  1. A Global Two-temperature Corona and Inner Heliosphere Model: A Comprehensive Validation Study [43]
    Jin, M., Manchester, W. B., van der Holst, B., Gruesbeck, J. R., Frazin, R. A., Landi, E., Vasquez, A. M., Lamy, P. L., Llebaria, A., Fedorov, A., Toth, G. & Gombosi, T. I., ApJ, 745, 6
  2. Post-Coronal Mass Ejection Plasma Observed by Hinode [19]
    Landi, E., Raymond, J. C., Miralles, M. P. & Hara, H., ApJ, 751, 21
  3. What can We Learn about Solar Coronal Mass Ejections, Coronal Dimmings, and Extreme-ultraviolet Jets through Spectroscopic Observations? [72]
    Tian, Hui, McIntosh, Scott W., Xia, Lidong, He, Jiansen & Wang, Xin, ApJ, 748, 106

2011

  1. On the Nature of the Spectral Line Broadening in Solar Coronal Dimmings [15]
    Dolla, L. R. & Zhukov, A. N., ApJ, 730, 113
  2. Photospheric flux cancellation and associated flux rope formation and eruption [158]
    Green, L. M., Kliem, B. & Wallace, A. J., A&A, 526, A2
  3. Determining the Solar Source of a Magnetic Cloud Using a Velocity Difference Technique [12]
    Harra, L. K., Mandrini, C. H., Dasso, S., Gulisano, A. M., Steed, K. & Imada, S., Solar Physics, 268, 213
  4. Spectroscopic Observations of a Coronal Moreton Wave [38]
    Harra, Louise K., Sterling, Alphonse C., Gömöry, Peter & Veronig, Astrid, ApJ, 737, L4
  5. One-dimensional Modeling for Temperature-dependent Upflow in the Dimming Region Observed by Hinode/EUV Imaging Spectrometer [24]
    Imada, S., Hara, H., Watanabe, T., Murakami, I., Harra, L. K., Shimizu, T. & Zweibel, E. G., ApJ, 743, 57
  6. Coronal Jets, Magnetic Topologies, and the Production of Interplanetary Electron Streams [6]
    Li, C., Matthews, S. A., van Driel-Gesztelyi, L., Sun, J. & Owen, C. J., ApJ, 735, 43
  7. Coronal Dimmings and the Early Phase of a CME Observed with STEREO and Hinode/EIS [22]
    Miklenic, C., Veronig, A. M., Temmer, M., Möstl, C. & Biernat, H. K., Solar Physics, 273, 125
  8. Lateral Offset of the Coronal Mass Ejections from the X-flare of 2006 December 13 and Its Two Precursor Eruptions [17]
    Sterling, Alphonse C., Moore, Ronald L. & Harra, Louise K., ApJ, 743, 63

2010

  1. On the Origin of the Solar Moreton Wave of 2006 December 6 [39]
    Balasubramaniam, K. S., Cliver, E. W., Pevtsov, A., Temmer, M., Henry, T. W., Hudson, H. S., Imada, S., Ling, A. G., Moore, R. L., Muhr, N., Neidig, D. F., Petrie, G. J. D., Veronig, A. M., Vršnak, B. & White, S. M., ApJ, 723, 587
  2. Spectroscopic Analysis of an EIT Wave/dimming Observed by Hinode/EIS [22]
    Chen, F., Ding, M. D. & Chen, P. F., ApJ, 720, 1254
  3. Physical Conditions in a Coronal Mass Ejection from Hinode, Stereo, and SOHO Observations [73]
    Landi, E., Raymond, J. C., Miralles, M. P. & Hara, H., ApJ, 711, 75
  4. The Impact of New EUV Diagnostics on CME-Related Kinematics [11]
    McIntosh, Scott W., de Pontieu, Bart & Leamon, Robert J., Solar Physics, 265, 5
  5. Micro-sigmoids as Progenitors of Coronal Jets: Is Eruptive Activity Self-similarly Multi-scaled? [46]
    Raouafi, N. -E., Georgoulis, M. K., Rust, D. M. & Bernasconi, P. N., ApJ, 718, 981
  6. Pre-Flare Flows in the Corona [8]
    Wallace, A. J., Harra, L. K., van Driel-Gesztelyi, L., Green, L. M. & Matthews, S. A., Solar Physics, 267, 361

2009

  1. On-disk signatures of eruptive activity from the Hinode mission [2]
    Harra, Louise K., Advances in Space Research, 44, 446
  2. Coronal Mass Ejection Induced Outflows Observed with Hinode/EIS [45]
    Jin, M., Ding, M. D., Chen, P. F., Fang, C. & Imada, S., ApJ, 702, 27
  3. The Inconvenient Truth About Coronal Dimmings [17]
    McIntosh, Scott W., ApJ, 693, 1306

2008

  1. Hinode: A New Solar Observatory in Space [0]
    Hara, Hirohisa, Plasma and Fusion Research, 2, 1008

2007

  1. Coronal Dimming Observed with Hinode: Outflows Related to a Coronal Mass Ejection [71]
    Harra, Louise K., Hara, Hirohisa, Imada, Shinsuke, Young, Peter R., Williams, David R., Sterling, Alphonse C., Korendyke, Clarence & Attrill, Gemma D. R., Publications of the Astronomical Society of Japan, 59, S801


Last revised on Fri Apr 8 16:04:57 2022