Publications of Maria Abunina

A list of publications authored or co-authored by Maria Abunina, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0002-2152-6541

List of publications ordered by citations
Number of papers: 75 (refereed: 55)
No. of citations: 963
First author papers: 9 (refereed: 6)

2025

  1. Forbush Effects Associated with Disappeared Solar Filaments [1]
    Kryakunova, Olga, Seifullina, Botakoz, Abunina, Maria, Shlyk, Nataly, Abunin, Artem, Nikolayevskiy, Nikolay & Tsepakina, Irina, Atmosphere, 16, 735

2024

  1. A Method for the Ambient Equivalent Dose Estimation in a Wide Range of Altitudes during SEP and GLE Events [2]
    Maurchev, Eugene, Shlyk, Nataly, Abunina, Maria, Abunin, Artem, Belov, Anatoly & Didenko, Kseniia, Atmosphere, 15, 92
  2. Comparison of Atmospheric Ionization for Solar Proton Events of the Last Three Solar Cycles [3]
    Maurchev, Eugene A., Shlyk, Nataly S., Dmitriev, Alexey V., Abunina, Maria A., Didenko, Kseniia A., Abunin, Artem A. & Belov, Anatoly V., Atmosphere, 15, 151
  3. Unusual Forbush Decreases and Geomagnetic Storms on 24 March, 2024 and 11 May, 2024 [12]
    Mavromichalaki, Helen, Papailiou, Maria-Christina, Livada, Maria, Gerontidou, Maria, Paschalis, Pavlos, Stassinakis, Argyris, Abunina, Maria, Shlyk, Nataly, Abunin, Artem, Belov, Anatoly, Yanke, Victor, Crosby, Norma, Dierckxsens, Mark & Drube, Line, Atmosphere, 15, 1033
  4. Precursory Signs of Large Forbush Decreases in Relation to Cosmic Rays Equatorial Anisotropy Variation [3]
    Papailiou, Maria-Christina, Abunina, Maria, Mavromichalaki, Helen, Shlyk, Nataly, Belov, Semyon, Abunin, Artem, Gerontidou, Maria, Belov, Anatoly, Yanke, Victor & Triantou, Amalia, Atmosphere, 15, 742

2023

  1. A statistical relationship between the fluence of magnetospheric relativistic electrons and interplanetary and geomagnetic characteristics [2]
    Kryakunova, O. N., Belov, A. V., Yakovets, A. F., Abunin, A. A., Tsepakina, I. L., Seifullina, B. B., Abunina, M. A., Nikolayevskiy, N. F. & Shlyk, N. S., Advances in Space Research, 72, 5391
  2. Review of Solar Energetic Particle Prediction Models [111]
    Whitman, Kathryn, Egeland, Ricky, Richardson, Ian G., Allison, Clayton, Quinn, Philip, Barzilla, Janet, Kitiashvili, Irina, Sadykov, Viacheslav, Bain, Hazel M., Dierckxsens, Mark, Mays, M. Leila, Tadesse, Tilaye, Lee, Kerry T., Semones, Edward, Luhmann, Janet G., Núñez, Marlon, White, Stephen M., Kahler, Stephen W., Ling, Alan G., Smart, Don F., Shea, Margaret A., Tenishev, Valeriy, Boubrahimi, Soukaina F., Aydin, Berkay, Martens, Petrus, Angryk, Rafal, Marsh, Michael S., Dalla, Silvia, Crosby, Norma, Schwadron, Nathan A., Kozarev, Kamen, Gorby, Matthew, Young, Matthew A., Laurenza, Monica, Cliver, Edward W., Alberti, Tommaso, Stumpo, Mirko, Benella, Simone, Papaioannou, Athanasios, Anastasiadis, Anastasios, Sandberg, Ingmar, Georgoulis, Manolis K., Ji, Anli, Kempton, Dustin, Pandey, Chetraj, Li, Gang, Hu, Junxiang, Zank, Gary P., Lavasa, Eleni, Giannopoulos, Giorgos, Falconer, David, Kadadi, Yash, Fernandes, Ian, Dayeh, Maher A., Muñoz-Jaramillo, Andrés, Chatterjee, Subhamoy, Moreland, Kimberly D., Sokolov, Igor V., Roussev, Ilia I., Taktakishvili, Aleksandre, Effenberger, Frederic, Gombosi, Tamas, Huang, Zhenguang, Zhao, Lulu, Wijsen, Nicolas, Aran, Angels, Poedts, Stefaan, Kouloumvakos, Athanasios, Paassilta, Miikka, Vainio, Rami, Belov, Anatoly, Eroshenko, Eugenia A., Abunina, Maria A., Abunin, Artem A., Balch, Christopher C., Malandraki, Olga, Karavolos, Michalis, Heber, Bernd, Labrenz, Johannes, Kühl, Patrick, Kosovichev, Alexander G., Oria, Vincent, Nita, Gelu M., Illarionov, Egor, O'Keefe, Patrick M., Jiang, Yucheng, Fereira, Sheldon H., Ali, Aatiya, Paouris, Evangelos, Aminalragia-Giamini, Sigiava, Jiggens, Piers, Jin, Meng, Lee, Christina O., Palmerio, Erika, Bruno, Alessandro, Kasapis, Spiridon, Wang, Xiantong, Chen, Yang, Sanahuja, Blai, Lario, David, Jacobs, Carla, Strauss, Du Toit, Steyn, Ruhann, van den Berg, Jabus, Swalwell, Bill, Waterfall, Charlotte, Nedal, Mohamed, Miteva, Rositsa, Dechev, Momchil, Zucca, Pietro, Engell, Alec, Maze, Brianna, Farmer, Harold, Kerber, Thuha, Barnett, Ben, Loomis, Jeremy, Grey, Nathan, Thompson, Barbara J., Linker, Jon A., Caplan, Ronald M., Downs, Cooper, Török, Tibor, Lionello, Roberto, Titov, Viacheslav, Zhang, Ming & Hosseinzadeh, Pouya, Advances in Space Research, 72, 5161

2022

  1. Solar Energetic Particle Events and Forbush Decreases Driven by the Same Solar Sources [3]
    Belov, Anatoly, Shlyk, Nataly, Abunina, Maria, Belova, Elena, Abunin, Artem & Papaioannou, Athanasios, Universe, 8, 403
  2. Estimating the Transit Speed and Time of Arrival of Interplanetary Coronal Mass Ejections Using CME and Solar Flare Data [5]
    Belov, Anatoly, Shlyk, Nataly, Abunina, Maria, Abunin, Artem & Papaioannou, Athanasios, Universe, 8, 327
  3. Earth's Seismic Activity and Galactic Cosmic Rays: Global and Regional Characteristics in Solar Cycles 21–24 [1]
    Khegai, V. V., Abunin, A. A., Abunina, M. A. & Belov, A. V., Geomagnetism and Aeronomy, 62, 514
  4. Precursory Signals of Forbush Decreases Not Connected with Shock Waves [6]
    Lingri, D., Mavromichalaki, H., Abunina, M., Belov, A., Eroshenko, E., Daglis, I. & Abunin, A., Solar Physics, 297, 24
  5. Features of the Behavior of Time Parameters of Forbush Decreases Associated with Different Types of Solar and Interplanetary Sources [3]
    Melkumyan, A. A., Belov, A. V., Abunina, M. A., Shlyk, N. S., Abunin, A. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 62, 17
  6. Forbush decreases associated with coronal mass ejections from active and non-active regions: statistical comparison [10]
    Melkumyan, A. A., Belov, A. V., Abunina, M. A., Abunin, A. A., Shlyk, N. S., Oleneva, V. A. & Yanke, V. G., MNRAS, 515, 4430
  7. Similarities and Differences between Forbush Decreases Associated with Streams from Coronal Holes, Filament Ejections, and Ejections from Active Regions [4]
    Melkumyan, A. A., Belov, A. V., Abunina, M. A., Shlyk, N. C., Abunin, A. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 62, 159
  8. Forbush decreases caused by paired interacting solar wind disturbances [10]
    Shlyk, N. S., Belov, A. V., Abunina, M. A., Abunin, A. A., Oleneva, V. A. & Yanke, V. G., MNRAS, 511, 5897
  9. Forbush Effects Observed by the Helios Spacecraft [0]
    Shlyk, N. S., Belov, A. V., Abunina, M. A., Abunin, A. A. & Papaioannou, A., Geomagnetism and Aeronomy, 62, 375

2021

  1. Forbush Effects Created by Coronal Mass Ejections with Magnetic Clouds [5]
    Abunina, M. A., Belov, A. V., Shlyk, N. S., Eroshenko, E. A., Abunin, A. A., Oleneva, V. A., Pryamushkina, I. I. & Yanke, V. G., Geomagnetism and Aeronomy, 61, 678
  2. Modulation Effectiveness of Coronal Mass Ejections with Different Structure of the Magnetic Field [0]
    Belov, A. V., Abunina, M. A., Eroshenko, E. A., Abunin, A. A., Papaioannou, A. & Mavromichalaki, H., Bulletin of the Russian Academy of Sciences, Physics, 85, 1183
  3. On the Rigidity Spectrum of Cosmic-Ray Variations within Propagating Interplanetary Disturbances: Neutron Monitor and SOHO/EPHIN Observations at ∼1-10 GV [14]
    Belov, Anatoly, Papaioannou, Athanasios, Abunina, Maria, Dumbovic, Mateja, Richardson, Ian G., Heber, Bernd, Kuhl, Patrick, Herbst, Konstantin, Anastasiadis, Anastasios, Vourlidas, Angelos, Eroshenko, Eugenia & Abunin, Artem, ApJ, 908, 5
  4. Radial evolution of the April 2020 stealth coronal mass ejection between 0.8 and 1 AU. Comparison of Forbush decreases at Solar Orbiter and near the Earth [25]
    Freiherr von Forstner, Johan L., Dumbović, Mateja, Möstl, Christian, Guo, Jingnan, Papaioannou, Athanasios, Elftmann, Robert, Xu, Zigong, Christoph Terasa, Jan, Kollhoff, Alexander, Wimmer-Schweingruber, Robert F., Rodríguez-Pacheco, Javier, Weiss, Andreas J., Hinterreiter, Jürgen, Amerstorfer, Tanja, Bauer, Maike, Belov, Anatoly V., Abunina, Maria A., Horbury, Timothy, Davies, Emma E., O'Brien, Helen, Allen, Robert C., Bruce Andrews, G., Berger, Lars, Boden, Sebastian, Cernuda Cangas, Ignacio, Eldrum, Sandra, Espinosa Lara, Francisco, Gómez Herrero, Raúl, Hayes, John R., Ho, George C., Kulkarni, Shrinivasrao R., Jeffrey Lees, W., Martín, César, Mason, Glenn M., Pacheco, Daniel, Prieto Mateo, Manuel, Ravanbakhsh, Ali, Rodríguez Polo, Oscar, Sánchez Prieto, Sebastián, Schlemm, Charles E., Seifert, Helmut, Tyagi, Kush & Yedla, Mahesh, A&A, 656, A1
  5. Solar Activity, Galactic Cosmic Ray Variations, and the Global Seismicity of the Earth [2]
    Khegai, V. V., Legen'ka, A. D., Abunin, A. A., Abunina, M. A., Belov, A. V. & Gaidash, S. P., Geomagnetism and Aeronomy, 61, S36
  6. Behavior of High-Energy Magnetospheric Electrons in Solar Cycles 22-24 [1]
    Kryakunova, O. N., Belov, A. V., Abunin, A. A., Nikolayevskiy, N. F., Abunina, M. A., Baideldinov, U. S., Sultangazinov, S. K., Seifullina, B. B. & Tsepakina, I. L., Bulletin of the Russian Academy of Sciences, Physics, 85, 904
  7. Solar wind temperature-velocity relationship over the last five solar cycles and Forbush decreases associated with different types of interplanetary disturbance [12]
    Melkumyan, A. A., Belov, A. V., Abunina, M. A., Abunin, A. A., Eroshenko, E. A., Yanke, V. G. & Oleneva, V. A., MNRAS, 500, 2786
  8. Statistical analysis on the current capability to predict the Ap Geomagnetic Index [5]
    Paouris, Evangelos, Abunina, Maria, Belov, Anatoly & Mavromichalaki, Helen, New Astronomy, 86, 101570
  9. Precursory Signs of Large Forbush Decreases [8]
    Papailiou, M., Abunina, M., Mavromichalaki, H., Belov, A., Abunin, A., Eroshenko, E. & Yanke, V., Solar Physics, 296, 100
  10. Influence of Interacting Solar Wind Disturbances on the Variations in Galactic Cosmic Rays [7]
    Shlyk, N. S., Belov, A. V., Abunina, M. A., Eroshenko, E. A., Abunin, A. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 61, 792

2020

  1. Impact of Different Types of Interplanetary Medium Disturbances of High-Energy Electrons on the Geostationary Orbit [0]
    Abunin, A. A., Abunina, M. A., Belov, A. V., Gaidash, S. P., Eroshenko, E. A., Kryakunova, O. N., Nikolaevskii, N. F., Pryamushkina, I. I. & Trefilova, L. A., Geomagnetism and Aeronomy, 59, 878
  2. Peculiar Solar Sources and Geospace Disturbances on 20-26 August 2018 [33]
    Abunin, A. A., Abunina, M. A., Belov, A. V. & Chertok, I. M., Solar Physics, 295, 7
  3. Ring of Stations Method in Cosmic Rays Variations Research [16]
    Abunina, M. A., Belov, A. V., Eroshenko, E. A., Abunin, A. A., Yanke, V. G., Melkumyan, A. A., Shlyk, N. S. & Pryamushkina, I. I., Solar Physics, 295, 69
  4. Station-Ring Method in the Study of Cosmic-Ray Variations: 2. Examples of Its Use [1]
    Abunina, M. A., Belov, A. V., Eroshenko, E. A., Abunin, A. A., Oleneva, V. A., Janke, V. G. & Melkumyan, A. A., Geomagnetism and Aeronomy, 60, 184
  5. Ring of Station Method in Research of Cosmic Ray Variations: 1. General Description [2]
    Abunina, M. A., Belov, A. V., Eroshenko, E. A., Abunin, A. A., Oleneva, V. A., Yanke, V. G. & Melkumyan, A. A., Geomagnetism and Aeronomy, 60, 38
  6. Behavior of the Speed and Temperature of the Solar Wind during Interplanetary Disturbances Creating Forbush Decreases [6]
    Melkumyan, A. A., Belov, A. V., Abunina, M. A., Abunin, A. A., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 60, 521
  7. Large Forbush Decreases and their Solar Sources: Features and Characteristics [6]
    Papailiou, M., Abunina, M., Belov, A., Eroshenko, E., Yanke, V. & Mavromichalaki, H., Solar Physics, 295, 164
  8. Interplanetary Coronal Mass Ejections as the Driver of Non-recurrent Forbush Decreases [29]
    Papaioannou, Athanasios, Belov, Anatoly, Abunina, Maria, Eroshenko, Eugenia, Abunin, Artem, Anastasiadis, Anastasios, Patsourakos, Spiros & Mavromichalaki, Helen, ApJ, 890, 101

2019

  1. High-Energy Magnetospheric Electrons and Different Types of Disturbances of the Interplanetary Medium [1]
    Abunin, A. A., Abunina, M. A., Belov, A. V., Gaidash, S. P., Kryakunova, O. N., Nikolaevskiy, N. F., Pryamushkina, I. I. & Trefilova, L. A., Bulletin of the Russian Academy of Sciences, Physics, 83, 579
  2. Database capabilities for studying Forbush-effects and interplanetary disturbances [5]
    Abunin, A. A., Abunina, M. A., Belov, A. V., Gaidash, S. P., Eroshenko, E. A., Pryamushkina, I. I., Trefilova, L. A. & Gamza, E. I., Journal of Physics Conference Series, Journal of Physics Conference Series, 1181, p. 012062
  3. The temperature effect of the muon component observed on A.I. Kuzmin cosmic ray spectrograph in Yakutsk [1]
    Grigorev, V. G., Gololobov, P. Yu., Starodubtsev, S. A., Zverev, A. S., Abunina, M. A., Preobrazhensky, M. S. & Yanke, V. G., Journal of Physics Conference Series, Journal of Physics Conference Series, 1181, p. 012066
  4. An Extended Study of the Precursory Signs of Forbush Decreases: New Findings over the Years 2008 - 2016 [14]
    Lingri, D., Mavromichalaki, H., Belov, A., Abunina, M., Eroshenko, E. & Abunin, A., Solar Physics, 294, 70
  5. On recurrent Forbush Decreases [2]
    Melkumyan, A., Belov, A., Abunina, M., Abunin, A., Eroshenko, E., Oleneva, V. & Yanke, V., Journal of Physics Conference Series, Journal of Physics Conference Series, 1181, p. 012009
  6. Long-Term Trends in Forbush Decrease Activity over the Last Six Solar Cycles [0]
    Melkumyan, A. A., Belov, A. V., Abunina, M. A., Abunin, A. A., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 83, 566
  7. Comparison between statistical properties of Forbush decreases caused by solar wind disturbances from coronal mass ejections and coronal holes [29]
    Melkumyan, A. A., Belov, A. V., Abunina, M. A., Abunin, A. A., Eroshenko, E. A., Yanke, V. G. & Oleneva, V. A., Advances in Space Research, 63, 1100
  8. Recurrent and sporadic Forbush decreases during solar cycles 23-24 [17]
    Melkumyan, Anaid, Belov, Anatoliy, Abunina, Mariya, Abunin, Artem, Eroshenko, Evgeniya, Oleneva, Viktoria & Yanke, Viktor, Solar-Terrestrial Physics, 5, 28
  9. A Catalogue of Forbush Decreases Recorded on the Surface of Mars from 2012 Until 2016: Comparison with Terrestrial FDs [19]
    Papaioannou, A., Belov, A., Abunina, M., Guo, J., Anastasiadis, A., Wimmer-Schweingruber, R. F., Eroshenko, E., Melkumyan, A., Abunin, A., Heber, B., Herbst, K. & Steigies, C. T., Solar Physics, 294, 66

2018

  1. The Global Survey Method Applied to Ground-level Cosmic Ray Measurements [67]
    Belov, A., Eroshenko, E., Yanke, V., Oleneva, V., Abunin, A., Abunina, M., Papaioannou, A. & Mavromichalaki, H., Solar Physics, 293, 68
  2. Global Survey Method for the World Network of Neutron Monitors [51]
    Belov, A. V., Eroshenko, E. A., Yanke, V. G., Oleneva, V. A., Abunina, M. A. & Abunin, A. A., Geomagnetism and Aeronomy, 58, 356
  3. Size Distribution of Forbush Effects [0]
    Melkumyan, A. A., Belov, A. V., Abunina, M. A., Abunin, A. A., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 58, 809
  4. Long-Term Changes in the Number and Magnitude of Forbush-Effects [8]
    Melkumyan, A. A., Belov, A. V., Abunina, M. A., Abunin, A. A., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 58, 615
  5. Main Properties of Forbush Effects Related to High-Speed Streams from Coronal Holes [30]
    Melkumyan, A. A., Belov, A. V., Abunina, M. A., Abunin, A. A., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 58, 154
  6. Nowcasting Solar Energetic Particle Events Using Principal Component Analysis [32]
    Papaioannou, A., Anastasiadis, A., Kouloumvakos, A., Paassilta, M., Vainio, R., Valtonen, E., Belov, A., Eroshenko, E., Abunina, M. & Abunin, A., Solar Physics, 293, 100

2017

  1. Vector anisotropy of cosmic rays in the beginning of Forbush effects [6]
    Belov, A. V., Abunina, M. A., Abunin, A. A., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 57, 541
  2. Cosmic-ray vector anisotropy and local characteristics of the interplanetary medium [8]
    Belov, A. V., Abunina, M. A., Abunin, A. A., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 57, 389
  3. Characteristic behavior of high-energy magnetospheric electrons from 1987 to 2007 [4]
    Belov, A. V., Kryakunova, O. N., Abunin, A. A., Abunina, M. A., Gaidash, S. P., Nikolayevskiy, N. F., Salikhov, N. M. & Tsepakina, I. L., Bulletin of the Russian Academy of Sciences, Physics, 81, 211
  4. Space Weather Forecasting at IZMIRAN [11]
    Gaidash, S. P., Belov, A. V., Abunina, M. A. & Abunin, A. A., Geomagnetism and Aeronomy, 57, 869

2016

  1. Behavior of the cosmic ray density during the initial phase of the Forbush effect [4]
    Belov, A. V., Eroshenko, E. A., Abunina, M. A., Abunin, A. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 56, 645
  2. Solar Activity Parameters and Associated Forbush Decreases During the Minimum Between Cycles 23 and 24 and the Ascending Phase of Cycle 24 [64]
    Lingri, D., Mavromichalaki, H., Belov, A., Eroshenko, E., Yanke, V., Abunin, A. & Abunina, M., Solar Physics, 291, 1025

2015

  1. Phase distribution of the first harmonic of the cosmic ray anisotropy during the initial phase of Forbush effects [3]
    Abunina, M., Abunin, A., Belov, A., Eroshenko, E., Oleneva, V. & Yanke, V., Journal of Physics Conference Series, Journal of Physics Conference Series, 632, p. 012044
  2. Galactic Cosmic Ray Density Variations in Magnetic Clouds [52]
    Belov, A., Abunin, A., Abunina, M., Eroshenko, E., Oleneva, V., Yanke, V., Papaioannou, A. & Mavromichalaki, H., Solar Physics, 290, 1429
  3. Modeling the behavior of the cosmic ray density in magnetic clouds [1]
    Belov, A., Eroshenko, E., Papaioannou, A., Abunin, A., Abunina, M., Oleneva, V., Mavromichalaki, H. & Yanke, V., Journal of Physics Conference Series, Journal of Physics Conference Series, 632, p. 012051
  4. Density variations of galactic cosmic rays in magnetic clouds [3]
    Belov, A. V., Abunin, A. A., Abunina, M. A., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 55, 430
  5. Modeling variations in CR density in magnetic clouds [1]
    Belov, A. V., Abunin, A. A., Abunina, M. A., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 79, 637
  6. Relationship Between the Magnetic Flux of Solar Eruptions and the Ap Index of Geomagnetic Storms [14]
    Chertok, I. M., Abunina, M. A., Abunin, A. A., Belov, A. V. & Grechnev, V. V., Solar Physics, 290, 627
  7. Recurrent and sporadic Forbush-effects in deep solar minimum [5]
    Kryakunova, O., Belov, A., Abunin, A., Abunina, M., Eroshenko, E., Malimbayev, A., Tsepakina, I. & Yanke, V., Journal of Physics Conference Series, Journal of Physics Conference Series, 632, p. 012062

2014

  1. Coronal Mass Ejections and Non-recurrent Forbush Decreases [76]
    Belov, A., Abunin, A., Abunina, M., Eroshenko, E., Oleneva, V., Yanke, V., Papaioannou, A., Mavromichalaki, H., Gopalswamy, N. & Yashiro, S., Solar Physics, 289, 3949

2013

  1. Forbush-decreases in 19th solar cycle [8]
    Abunin, A., Abunina, M., Belov, A., Eroshenko, E., Oleneva, V. & Yanke, V., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012165
  2. Forbush decreases in the 19th solar cycle [1]
    Abunin, A. A., Abunina, M. A., Belov, A. V., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 77, 535
  3. Forecasting Geomagnetic Conditions in near-Earth space [7]
    Abunina, M., Papaioannou, A., Gerontidou, M., Paschalis, P., Abunin, A., Gaidash, S., Tsepakina, I., Malimbayev, A., Belov, A., Mavromichalaki, H., Kryakunova, O. & Velinov, P., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012197
  4. Long term variations of the amplitude-phase interrelation of the cosmic ray anisotropy first harmonic [0]
    Abunina, M., Abunin, A., Belov, A., Eroshenko, E., Oleneva, V. & Yanke, V., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012163
  5. Relationship between Forbush effect parameters and the heliolongitude of solar sources [10]
    Abunina, M. A., Abunin, A. A., Belov, A. V., Eroshenko, E. A., Asipenka, A. S., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 53, 10
  6. Long-period variations in the amplitude-phase interrelation of the first cosmic ray anisotropy harmonic [4]
    Abunina, M. A., Abunin, A. A., Belov, A. V., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 53, 561
  7. Influence of high-speed streams from coronal holes on cosmic ray intensity in 2007 [4]
    Kryakunova, O., Tsepakina, I., Nikolayevskiy, N., Malimbayev, A., Belov, A., Abunin, A., Abunina, M., Eroshenko, E., Oleneva, V. & Yanke, V., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012181
  8. Cosmic ray events in the beginning of 2012 [3]
    Mavromichalaki, H., Papaioannou, A., Gerontidou, M., Papailiou, M., Plainaki, C., Belov, A., Eroshenko, E., Abunin, A., Abunina, M. & Yanke, V., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012206
  9. Forbush Decreases Associated with Western Solar Sources and Geomagnetic Storms: A Study on Precursors [15]
    Papailiou, M., Mavromichalaki, H., Abunina, M., Belov, A., Eroshenko, E., Yanke, V. & Kryakunova, O., Solar Physics, 283, 557
  10. Precursors of Forbush decreases connected to western solar sources and geomagnetic storms [1]
    Papailiou, M., Mavromichalaki, H., Abunina, M., Belov, A., Eroshenko, E. & Yanke, V., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012182
  11. The first Forbush decrease of solar cycle 24 [11]
    Papaioannou, A., Belov, A., Mavromichalaki, H., Eroshenko, E., Yanke, V., Asvestari, E., Abunin, A. & Abunina, M., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012202

2012

  1. Forbush effects with a sudden and gradual onset [23]
    Abunin, A. A., Abunina, M. A., Belov, A. V., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 52, 292

Created on Wed Apr 8 04:31:49 2026.