Publications of V. Yanke

A list of publications authored or co-authored by V. Yanke, 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: 0000-0001-7098-9094

List of publications ordered by citations
Number of papers: 140 (refereed: 90)
No. of citations: 1919
First author papers: 9 (refereed: 4)

2024

1. Forecast of Modulation of Cosmic Rays with Rigidity of 10 GV in the 25th Solar Activity Cycle [1]
   Yanke, V. G., Belov, A. V., Gushchina, R. T., Kobelev, P. G. & Trefilova, L. A., Geomagnetism and Aeronomy, 64, 201

2022

1. Monitoring of the thickness of the snow cover based on the neutron component data of cosmic rays [2]
   Dorman, L. I., 37th International Cosmic Ray Conference, p. 282
2. A Method for Correcting Neutron Monitor Data for the Snow Effect [2]
   Kobelev, P. G., Trefilova, L. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 62, 737
3. 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
4. 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
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 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
7. Variations of Cosmic Rays with Various Energies in the Minima of Solar Activity Cycles [2]
   Yanke, V. G., Belov, A. V. & Gushchina, R. T., Geomagnetism and Aeronomy, 62, 347

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. Variations in the Cosmic Ray Flux at the End of Solar Cycle 24 [0]
   Balabin, Yu. V., Belov, A. V., Gushchina, R. T., Yanke, V. G. & Yankovsky, I. V., Bulletin of the Russian Academy of Sciences, Physics, 85, 230
3. Large Scale Modulation: View from the Earth Points [3]
   Belov, A. V., Gushchina, R. T., Oleneva, V. A. & Yanke, V. G., Physics of Atomic Nuclei, 84, 1159
4. Using Data from a Ground-Based Network of Detectors and the PAMELA and AMS-02 Experiments to Compare Long-Term Variations in the Cosmic Ray Flux [1]
   Belov, A. V., Gushchina, R. T., Shlyk, N. S. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 85, 1039
5. Program for Calculating the Geomagnetic Cutoff Rigidity of Cosmic Rays and the Trajectories of Their Motion [4]
   Belov, S. M., Zobnin, G. I. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 85, 1297
6. World grid of cosmic ray vertical cut-off rigidity for the last decade [32]
   Gerontidou, M., Katzourakis, N., Mavromichalaki, H., Yanke, V. & Eroshenko, E., Advances in Space Research, 67, 2231
7. Heliospheric Modulation of Cosmic Rays in the Era of Neutron Monitoring [0]
   Kobelev, P. G., Trefilova, L. A., Zirakashvili, V. N., Belov, A. V., Guschina, R. T. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 85, 1052
8. 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
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
11. An Unusual Decrease in the Intensity of Cosmic Rays in May 2019 during the Solar Minimum [0]
    Trefilova, L. A., Kobelev, P. G., Belov, A. V., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 85, 588
12. Long-Term Modulation of Cosmic Rays in Solar Cycles 23─24 [4]
    Yanke, V. G., Belov, A. V. & Gushchina, R. T., Bulletin of the Russian Academy of Sciences, Physics, 85, 1045
13. Experimental Spectrum of Cosmic Ray Variations in Earth Orbit, According to AMS-02 Data [0]
    Yanke, V. G., Belov, A. V., Gushchina, R. T., Eroshenko, E. A., Oleneva, V. A., Trefilova, L. A. & Kobelev, P. G., Bulletin of the Russian Academy of Sciences, Physics, 85, 1042
14. The Experimental Spectrum of Variations of Cosmic Rays in a Wide Range of Hardness According to AMS-02 Data [1]
    Yanke, V. G., Belov, A. V., Shlyk, N. S., Kobelev, P. G. & Trefilova, L. A., Cosmic Research, 59, 427

2020

1. 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
2. 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
3. Method of Global Survey by Data of Muon Telescopes [1]
   Grigoryev, V. G., Gololobov, P. Yu., Krivoshapkin, P. A., Krymsky, G. F., Starodubtsev, S. A., Zverev, A. S. & Yanke, V. G., Physics of Atomic Nuclei, 82, 879
4. 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
5. Minor Ground Level Enhancements in the Solar Cosmic Rays in the 24th Solar Activity Cycle [2]
   Miroshnichenko, L. I., Li, C. & Yanke, V. G., Cosmic Research, 58, 150
6. Small Size Ground Level Enhancements During Solar Cycle 24 [4]
   Miroshnichenko, Leonty I., Li, Chuan & Yanke, Victor G., Solar Physics, 295, 102
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. Reformatting of the Combined Muon—Neutron Detector to Increase Efficiency: Estimates, Calculations, Experiments [0]
   Yanke, V. G., Physics of Atomic Nuclei, 82, 902

2019

1. Long-term stability of the neutron monitors global network for overall monitoring period [0]
   Belov, A. V., Gushchina, R. T., Eroshenko, E. A., Abunin, A. A., Kobelev, P. G. & Yanke, V. G., Journal of Physics Conference Series, Journal of Physics Conference Series, 1181, p. 012063
2. 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
3. Distribution of Cosmic Rays in the Heliosphere, According to Data from the Network of Muon Telescope Stations [2]
   Grigoryev, V. G., Gololobov, P. Yu., Krivoshapkin, P. A., Krymsky, G. F. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 83, 547
4. Planetary long term changes of the cosmic ray geomagnetic cut off rigidities [2]
   Gvozdevsky, B. B., Belov, A. V., Gushchina, R. T., Eroshenko, E. A. & Yanke, V. G., Journal of Physics Conference Series, Journal of Physics Conference Series, 1181, p. 012008
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. 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
7. 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
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. The rigidity spectrum of the long-term cosmic ray variations during solar activity cycles 19-24 [2]
   Yanke, V. G., Belov, A. V., Gushchina, R. T. & Zirakashvili, V. N., Journal of Physics Conference Series, Journal of Physics Conference Series, 1181, p. 012007

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. Temperature Effect Observed for the Muon Component in the Yakutsk Cosmic-Ray Spectrograph [8]
   Berkova, M. D., Grigoryev, V. G., Preobrazhensky, M. S., Zverev, A. S. & Yanke, V. G., Physics of Atomic Nuclei, 81, 776
4. Long-Term Changes in Vertical Geomagnetic Cutoff Rigidities of Cosmic Rays [6]
   Gvozdevsky, B. B., Belov, A. V., Gushchina, R. T., Eroshenko, E. A., Kobelev, P. G. & Yanke, V. G., Physics of Atomic Nuclei, 81, 1382
5. 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
6. 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
7. 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

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 [9]
   Belov, A. V., Abunina, M. A., Abunin, A. A., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Geomagnetism and Aeronomy, 57, 389
3. Contributions from changes in various solar indices in cycles 20-23 and 24 to the modulation of cosmic rays [4]
   Belov, A. V., Gushchina, R. T. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 81, 146

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. Coronal holes in the long-term modulation of cosmic rays [8]
   Gushchina, R. T., Belov, A. V., Tlatov, A. G. & Yanke, V. G., Geomagnetism and Aeronomy, 56, 257
3. Magnetospheric effects of cosmic rays. 1. Long-term changes in the geomagnetic cutoff rigidities for the stations of the global network of neutron monitors [11]
   Gvozdevskii, B. B., Abunin, A. A., Kobelev, P. G., Gushchina, R. T., Belov, A. V., Eroshenko, E. A. & Yanke, V. G., Geomagnetism and Aeronomy, 56, 381
4. 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
5. Size Distributions of Solar Proton Events: Methodological and Physical Restrictions [4]
   Miroshnichenko, L. I. & Yanke, V. G., Solar Physics, 291, 3685

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. Possible ground level enhancements at the beginning of the maximum of Solar Cycle 24 [6]
   Belov, A., Eroshenko, E., Kryakunova, O., Nikolayevskiy, N., Malimbayev, A., Tsepakina, I. & Yanke, V., Journal of Physics Conference Series, Journal of Physics Conference Series, 632, p. 012063
4. 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
5. Possible ground level enhancements of solar cosmic rays in 2012 [8]
   Belov, A. V., Eroshenko, E. A., Kryakunova, O. N., Nikolayevskiy, N. F., Malimbayev, A. M., Tsepakina, I. L. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 79, 561
6. 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
7. 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
8. 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
9. Analyzing the temperature effect of high mountain cosmic ray detectors using the database of the global network of muon telescopes [3]
   Osipenko, A. S., Abunin, A. A., Berkova, M. D., Barbashina, N. S., Grigoryev, V. G., Starodubtsev, S. A., Kuzmenko, V. S., Yanchukovsky, V. L., Titova, M. A., Belov, A. V., Eroshenko, E. A. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 79, 662
10. Derivation of relativistic SEP properties through neutron monitor data modeling [3]
    Plainaki, C., Laurenza, M., Mavromichalaki, H., Storini, M., Gerontidou, M., Kanellakopoulos, A., Andriopoulou, M., Belov, A., Eroshenko, E. & Yanke, V., Journal of Physics Conference Series, Journal of Physics Conference Series, 632, p. 012076
11. Atmospheric effect corrections of MuSTAnG data [13]
    Zazyan, Mary, Ganeva, Marina, Berkova, Marina, Yanke, Victor & Hippler, Rainer, Journal of Space Weather and Space Climate, 5, A6

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. 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
4. 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
5. 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
6. Seasonal variations of the muon flux seen by muon telescope MuSTAnG [8]
   Ganeva, M., Peglow, S., Hippler, R., Berkova, M. & Yanke, V., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012242
7. Seasonal variations of the muon flux in the MUSTANG super telescope data [1]
   Ganeva, M., Peglow, S., Hippler, R., Berkova, M. D. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 77, 561
8. Spectrum of long-term cosmic ray variations during the sunspot minimum in 2009 [5]
   Gushchina, R. T., Belov, A. V. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 77, 513
9. The observed spectrum of long-term cosmic ray variations in minimum solar activity 2009 [3]
   Gushchina, R. T., Belov, A. V. & Yanke, V. G., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012169
10. Procedure to emend neutron monitor data that are affected by snow accumulations on and around the detector housing [10]
    Korotkov, V., Berkova, M., Belov, A., Eroshenko, E., Yanke, V. & Pyle, R., Journal of Geophysical Research (Space Physics), 118, 6852
11. Temperature effects in high-energy muon fluxes and the problem of reconstructing the atmospheric temperature profile [0]
    Kostyuk, M. G., Petkov, V. B., Novoseltseva, R. V., Boliev, M. M., Berkova, M. D., Novoseltsev, Yu. F., Volkova, L. V. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 77, 569
12. Variations of the high energy muon flux and space-time structure of the temperature profile in the atmosphere [1]
    Kostyuk, M. G., Petkov, V. B., Novoseltseva, R. V., Boliev, M. M., Berkova, M. D., Novoseltsev, Yu F., Volkova, L. V. & Yanke, V. G., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012231
13. 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
14. Magnetospheric cut-off rigidity variations recorded by neutron monitors in the events from 2001 to 2010 [1]
    Mavromichalaki, H., Eroshenko, E., Belov, A., Yanke, V., Mariatos, G., Laoutaris, A. & Kontiza, A., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012201
15. 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
16. 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
17. 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
18. 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
19. Online application for the barometric coefficient calculation of the NMDB stations [19]
    Paschalis, P., Mavromichalaki, H., Yanke, V., Belov, A., Eroshenko, E., Gerontidou, M. & Koutroumpi, I., New Astronomy, 19, 10
20. An online application for the barometric coefficient calculation of NMDB stations [0]
    Paschalis, P., Mavromichalaki, H., Yanke, V., Belov, A., Eroshenko, E., Gerontidou, M. & Koutroumpi, I., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012179

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
2. Galactic Cosmic Ray Modulation and the Last Solar Minimum [37]
   Paouris, E., Mavromichalaki, H., Belov, A., Gushchina, R. & Yanke, V., Solar Physics, 280, 255
3. The Asymptotic Longitudinal Cosmic Ray Intensity Distribution as a Precursor of Forbush Decreases [22]
   Papailiou, M., Mavromichalaki, H., Belov, A., Eroshenko, E. & Yanke, V., Solar Physics, 280, 641
4. Precursor Effects in Different Cases of Forbush Decreases [37]
   Papailiou, M., Mavromichalaki, H., Belov, A., Eroshenko, E. & Yanke, V., Solar Physics, 276, 337

2011

1. Efficiency of detection for neutron detectors with different geometries [15]
   Abunin, A. A., Pletnikov, E. V., Shchepetov, A. L. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 75, 866
2. Forbush-effects with sudden and gradual storm commencement [0]
   Abunin, Artem, International Cosmic Ray Conference, International Cosmic Ray Conference, 10, p. 278
3. Temperature effect of the muon component and practical questions for considering it in real time [24]
   Berkova, M. D., Belov, A. V., Eroshenko, E. A. & Yanke, V. G., Bulletin of the Russian Academy of Sciences, Physics, 75, 820
4. Seasonal variation of the muon flux seen by the BUST [0]
   Berkova, Marina, International Cosmic Ray Conference, International Cosmic Ray Conference, 4, p. 354
5. Variations of barometric coefficients of the neutron component in the 22-23 cycles of solar activity. [1]
   Kobelev, Pavel, International Cosmic Ray Conference, International Cosmic Ray Conference, 11, p. 381
6. Effect of snow in cosmic ray variations and methods for taking it into consideration [5]
   Korotkov, V. K., Berkova, M. D., Belov, A. V., Eroshenko, E. A., Kobelev, P. G. & Yanke, V. G., Geomagnetism and Aeronomy, 51, 247
7. Relation of the Forbush-effect parameters to the heliolongitude of the solar sources [0]
   Krivosheeva, Maria, International Cosmic Ray Conference, International Cosmic Ray Conference, 10, p. 274
8. Applications and usage of the real-time Neutron Monitor Database [131]
   Mavromichalaki, H., Papaioannou, A., Plainaki, C., Sarlanis, C., Souvatzoglou, G., Gerontidou, M., Papailiou, M., Eroshenko, E., Belov, A., Yanke, V., Flückiger, E. O., Bütikofer, R., Parisi, M., Storini, M., Klein, K.-L., Fuller, N., Steigies, C. T., Rother, O. M., Heber, B., Wimmer-Schweingruber, R. F., Kudela, K., Strharsky, I., Langer, R., Usoskin, I., Ibragimov, A., Chilingaryan, A., Hovsepyan, G., Reymers, A., Yeghikyan, A., Kryakunova, O., Dryn, E., Nikolayevskiy, N., Dorman, L. & Pustil'Nik, L., Advances in Space Research, 47, 2210
9. Temperature effect of general component seen by cosmic ray detectors [1]
   Yanke, Victor, International Cosmic Ray Conference, International Cosmic Ray Conference, 11, p. 377
10. Primary Processing of Multichannel Cosmic Ray Detectors [0]
    Yanke, Victor, International Cosmic Ray Conference, International Cosmic Ray Conference, 11, p. 455

2010

1. Ground level enhancements of solar cosmic rays during the last three solar cycles [44]
   Belov, A. V., Eroshenko, E. A., Kryakunova, O. N., Kurt, V. G. & Yanke, V. G., Geomagnetism and Aeronomy, 50, 21
2. Relationships between neutron fluxes and rain flows [8]
   Eroshenko, Eugenia, Velinov, Peter, Belov, Anatoly, Yanke, Victor, Pletnikov, Eugeni, Tassev, Yordan, Mishev, Alexander & Mateev, Lachezar, Advances in Space Research, 46, 637
3. Implementation of the ground level enhancement alert software at NMDB database [21]
   Mavromichalaki, Helen, Souvatzoglou, George, Sarlanis, Christos, Mariatos, George, Papaioannou, Athanasios, Belov, Anatoly, Eroshenko, Eugenia, Yanke, Victor & NMDB Team, New Astronomy, 15, 744
4. A New Version of the Neutron Monitor Based Anisotropic GLE Model: Application to GLE60 [16]
   Plainaki, C., Mavromichalaki, H., Belov, A., Eroshenko, E., Andriopoulou, M. & Yanke, V., Solar Physics, 264, 239

2009

1. Interactive database of cosmic ray anisotropy (DB-A10) [26]
   Asipenka, A. S., Belov, A. V., Eroshenko, E. A., Klepach, E. G., Oleneva, V. A. & Yanke, V. G., Advances in Space Research, 43, 708
2. Behavior of the cosmic-ray vector anisotropy before interplanetary shocks [14]
   Belov, A. V., Asipenka, A., Dryn, E. A., Eroshenko, E. A., Kryakunova, O. N., Oleneva, V. A. & Yanke, V., Bulletin of the Russian Academy of Sciences, Physics, 73, 331
3. Russian ground-level detectors of cosmic ray observations as a part of the world wide network: History and development [0]
   Eroshenko, E., Belov, A. & Yanke, V., Advances in Space Research, 44, 1207
4. Neutron monitor asymptotic directions of viewing during the event of 13 December 2006 [16]
   Plainaki, C., Mavromichalaki, H., Belov, A., Eroshenko, E. & Yanke, V., Advances in Space Research, 43, 518
5. Modeling the solar cosmic ray event of 13 December 2006 using ground level neutron monitor data [24]
   Plainaki, C., Mavromichalaki, H., Belov, A., Eroshenko, E. & Yanke, V., Advances in Space Research, 43, 474
6. Real-time GLE alert in the ANMODAP Center for December 13, 2006 [23]
   Souvatzoglou, G., Mavromichalaki, H., Sarlanis, C., Mariatos, G., Belov, A., Eroshenko, E. & Yanke, V., Advances in Space Research, 43, 728

2008

1. Connection of Forbush effects to the X-ray flares [10]
   Belov, A. V., Eroshenko, E. A., Oleneva, V. A. & Yanke, V. G., Journal of Atmospheric and Solar-Terrestrial Physics, 70, 342

2007

1. Estimation of long-term stability of detectors within the global network of neutron monitors [8]
   Belov, A. V., Gushchina, R. T., Eroshenko, E. A., Yudakhin, K. F. & Yanke, V. G., Geomagnetism and Aeronomy, 47, 251
2. Cosmic Ray Radiation Effects on Space Environment Associated to Intense Solar and Geomagnetic Activity [12]
   Mavromichalaki, H., Papaioannou, A., Mariatos, G., Papailiou, M., Belov, A., Eroshenko, E., Yanke, V. & Stassinopoulos, E. G., IEEE Transactions on Nuclear Science, 54, 1089
3. GLEs as a Warning Tool for Radiation Effects on Electronics and Systems: A New Alert System Based on Real-Time Neutron Monitors [9]
   Mavromichalaki, H., Plainaki, C., Gerontidou, M., Sarlanis, C., Souvatzoglou, G., Mariatos, G., Belov, A., Eroshenko, E., Klepach, E. & Yanke, V., IEEE Transactions on Nuclear Science, 54, 1082
4. Modeling ground level enhancements: Event of 20 January 2005 [81]
   Plainaki, C., Belov, A., Eroshenko, E., Mavromichalaki, H. & Yanke, V., Journal of Geophysical Research (Space Physics), 112, A04102

2006

1. Long-term variations of galactic cosmic rays in the past and future from observations of various solar activity characteristics [15]
   Belov, A. V., Gushchina, R. T., Obridko, V. N., Shelting, B. D. & Yanke, V. G., Journal of Atmospheric and Solar-Terrestrial Physics, 68, 1161
2. Spacecraft operational anomalies and space weather impact hazards [12]
   Iucci, N., Dorman, L. I., Levitin, A. E., Belov, A. V., Eroshenko, E. A., Ptitsyna, N. G., Villoresi, G., Chizhenkov, G. V., Gromova, L. I., Parisi, M., Tyasto, M. I. & Yanke, V. G., Advances in Space Research, 37, 184
3. Space weather prediction by cosmic rays [24]
   Mavromichalaki, H., Souvatzoglou, G., Sarlanis, C., Mariatos, G., Plainaki, C., Gerontidou, M., Belov, A., Eroshenko, E. & Yanke, V., Advances in Space Research, 37, 1141
4. The new Athens Center applied to Space Weather Forecasting [0]
   Mavromichalaki, H., Sarlanis, C., Souvatzoglou, G., Mariatos, G., Gerontidou, M., Plainaki, C., Papaioannou, A., Tatsis, S., Belov, A., Eroshenko, E. & Yanke, V., Recent Advances in Astronomy and Astrophysics (Editors: Solomos, Nikolaos), American Institute of Physics Conference Series, 848, p. 837
5. Modeling of the solar energetic particles recorded at Neutron Monitors [1]
   Plainaki, Christina G., Mavromichalaki, Helen A., Belov, Anatoly V., Eroshenko, Eugenia A. & Yanke, Victor A., Recent Advances in Astronomy and Astrophysics (Editors: Solomos, Nikolaos), American Institute of Physics Conference Series, 848, p. 258

2005

1. Solar cosmic rays during the extremely high ground level enhancement on 23 February 1956 [26]
   Belov, A., Eroshenko, E., Mavromichalaki, H., Plainaki, C. & Yanke, V., Annales Geophysicae, 23, 2281
2. Magnetospheric effects in cosmic rays during the unique magnetic storm on November 2003 [91]
   Belov, A., Baisultanova, L., Eroshenko, E., Mavromichalaki, H., Yanke, V., Pchelkin, V., Plainaki, C. & Mariatos, G., Journal of Geophysical Research (Space Physics), 110, A09S20
3. A study of the ground level enhancement of 23 February 1956 [23]
   Belov, A., Eroshenko, E., Mavromichalaki, H., Plainaki, C. & Yanke, V., Advances in Space Research, 35, 697
4. Prediction of expected global climate change by forecasting of galactic cosmic ray intensity time variation in near future based on solar magnetic field data [11]
   Belov, A. V., Dorman, L. I., Gushchina, R. T., Obridko, V. N., Shelting, B. D. & Yanke, V. G., Advances in Space Research, 35, 491
5. Space Weather Research:. the Connection Between Satellite Malfunction Data and Cosmic Ray Activity Indices [2]
   Belov, A. V., Eroshenko, E. A., Yanke, V. G., Kryakunova, O. N. & Nikolaevskiy, N. F., International Journal of Modern Physics A, 20, 6675
6. Space weather and space anomalies [5]
   Dorman, L. I., Iucci, N., Belov, A. V., Levitin, A. E., Eroshenko, E. A., Ptitsyna, N. G., Villoresi, G., Chizhenkov, G. V., Gromova, L. I., Parisi, M., Tyasto, M. I. & Yanke, V. G., Annales Geophysicae, 23, 3009
7. Different space weather effects in anomalies of the high and low orbital satellites [3]
   Dorman, L. I., Belov, A. V., Eroshenko, E. A., Gromova, L. I., Iucci, N., Levitin, A. E., Parisi, M., Ptitsyna, N. G., Pustil'Nik, L. A., Tyasto, M. I., Vernova, E. S., Villoresi, G., Yanke, V. G. & Zukerman, I. G., Advances in Space Research, 36, 2530
8. New Neutron Monitor Station in Baksan Valley [3]
   Karpov, S. N., Karpova, Z. M., Petkov, V. B., Vashenyuk, E. V. & Yanke, V. G., International Journal of Modern Physics A, 20, 6696
9. Alert System for Ground Level Cosmic-Ray Enhancements Prediction at the Athens Neutron Monitor Network in Real-Time [8]
   Mariatos, G., Mavromichalaki, H., Sarlanis, C., Souvatzoglou, G., Belov, A., Eroshenko, E. & Yanke, V., International Journal of Modern Physics A, 20, 6711
10. The new Athens center on data processing from the neutron monitor network in real time [12]
    Mavromichalaki, H., Souvatzoglou, G., Sarlanis, C., Mariatos, G., Gerontidou, M., Papaioannou, A., Plainaki, C., Tatsis, S., Belov, A., Eroshenko, E. & Yanke, V., Annales Geophysicae, 23, 3103
11. Space Weather Forecasting at the New Athens Center: The Recent Extreme Events of January 2005 [8]
    Mavromichalaki, H., Gerontidou, M., Mariatos, G., Plainaki, C., Papaioannou, A., Sarlanis, C., Souvatzoglou, G., Belov, A., Eroshenko, E., Yanke, V. & Tsitomeneas, S., IEEE Transactions on Nuclear Science, 52, 2307
12. Unexpected burst of solar activity recorded by neutron monitors during October November 2003 [18]
    Plainaki, C., Belov, A., Eroshenko, E., Kurt, V., Mavromichalaki, H. & Yanke, V., Advances in Space Research, 35, 691

2004

1. Monitoring and Forecasting of Great Solar Proton Events Using the Neutron Monitor Network in Real Time [23]
   Dorman, Lev I., Pustil'nik, Lev A., Sternlieb, Abraham, Zukerman, Igor G., Belov, Anatoly V., Eroshenko, Evguenia A., Yanke, Victor G., Mavromichalaki, Helen, Sarlanis, Christos, Souvatzoglou, George, Tatsis, Sotiris, Iucci, Nunzio, Villoresi, Giorgio, Fedorov, Yurij, Shakhov, Boris A. & Murat, Michael, IEEE Transactions on Plasma Science, 32, 1478
2. Cosmic-Ray Variations During the Two Greatest Bursts of Solar Activity in the 23rd Solar Cycle [14]
   Eroshenko, E., Belov, A., Mavromichalaki, H., Mariatos, G., Oleneva, V., Plainaki, C. & Yanke, V., Solar Physics, 224, 345
3. Solar and Heliospheric Phenomena in October-November 2003: Causes and Effects [85]
   Veselovsky, I. S., Panasyuk, M. I., Avdyushin, S. I., Bazilevskaya, G. A., Belov, A. V., Bogachev, S. A., Bogod, V. M., Bogomolov, A. V., Bothmer, V., Boyarchuk, K. A., Vashenyuk, E. V., Vlasov, V. I., Gnezdilov, A. A., Gorgutsa, R. V., Grechnev, V. V., Denisov, Yu. I., Dmitriev, A. V., Dryer, M., Yermolaev, Yu. I., Eroshenko, E. A., Zherebtsov, G. A., Zhitnik, I. A., Zhukov, A. N., Zastenker, G. N., Zelenyi, L. M., Zeldovich, M. A., Ivanov-Kholodnyi, G. S., Ignat'ev, A. P., Ishkov, V. N., Kolomiytsev, O. P., Krasheninnikov, I. A., Kudela, K., Kuzhevsky, B. M., Kuzin, S. V., Kuznetsov, V. D., Kuznetsov, S. N., Kurt, V. G., Lazutin, L. L., Leshchenko, L. N., Litvak, M. L., Logachev, Yu. I., Lawrence, G., Markeev, A. K., Makhmutov, V. S., Mitrofanov, A. V., Mitrofanov, I. G., Morozov, O. V., Myagkova, I. N., Nusinov, A. A., Oparin, S. N., Panasenco, O. A., Pertsov, A. A., Petrukovich, A. A., Podorol'sky, A. N., Romashets, E. P., Svertilov, S. I., Svidsky, P. M., Svirzhevskaya, A. K., Svirzhevsky, N. S., Slemzin, V. A., Smith, Z., Sobel'man, I. I., Sobolev, D. E., Stozhkov, Yu. I., Suvorova, A. V., Sukhodrev, N. K., Tindo, I. P., Tokhchukova, S. Kh., Fomichev, V. V., Chashey, I. V., Chertok, I. M., Shishov, V. I., Yushkov, B. Yu., Yakovchouk, O. S. & Yanke, V. G., Cosmic Research, 42, 435

2003

1. Latitudinal and radial variation of >2 GeV/n protons and alpha-particles at solar maximum: Ulysses COSPIN/KET and neutron monitor network observations [11]
   Belov, A. V., Eroshenko, E. A., Heber, B., Yanke, V. G., Raviart, A., Müller-Mellin, R. & Kunow, H., Annales Geophysicae, 21, 1295
2. Cosmic ray anisotropy before and during the passage of major solar wind disturbances [33]
   Belov, A. V., Bieber, J. W., Eroshenko, E. A., Evensong, P., Pyle, R. & Yankee, V. G., Advances in Space Research, 31, 919

2001

1. What determines the magnitude of forbush decreases? [112]
   Belov, A. V., Eroshenko, E. A., Oleneva, V. A., Struminsky, A. B. & Yanke, V. G., Advances in Space Research, 27, 625

1999

1. Latitudinal and radial variation of >2 GeV/n protons and α-particles in the northern heliosphere: ulysses cospin/ket and neutron monitor network observations [7]
   Belov, A. V., Eroshenko, E. A., Heber, B., Yanke, V. G., Ferrando, P., Raviart, A., Bothmer, V., Dröge, W., Kunow, H., Müller-Mellin, R., Röhrs, K., Wibberenz, G. & Paizis, C., Advances in Space Research, 23, 443

1995

1. Isotropic and anisotropic cosmic ray variations in March-June 1991 [2]
   Belov, A. V., Eroshenko, E. A., Yanke, V. G., Yudakhin, K. F. & Villoresi, G., Advances in Space Research, 16, 249