Publications of Alexander L. Mishev

A list of publications authored or co-authored by Alexander L. Mishev, 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: 0000-0002-7184-9664

List of publications ordered by citations
Number of papers: 73 (refereed: 62)
No. of citations: 1778
First author papers: 37 (refereed: 29)

2025

1. Radiation Impact of the Halloween GLE Events During the October-November 2003 Period [3]
   Larsen, N. & Mishev, A., Space Weather, 23, 2024SW004199
2. The High-Energy Protons of the Ground Level Enhancement (GLE74) Event on 11 May 2024 [9]
   Papaioannou, A., Mishev, A., Usoskin, I., Heber, B., Vainio, R., Larsen, N., Jarry, M., Rouillard, A. P., Talebpour Sheshvan, N., Laurenza, M., Dumbović, M., Vasalos, G., Gieseler, J., Koldobskiy, S., Raukunen, O., Palmroos, C., Hörlöck, M., Köberle, M., Wimmer-Schweingruber, R. F., Anastasiadis, A., Kühl, P. & Lavasa, E., Solar Physics, 300, 73
3. Ground-Level Enhancement of 8 June 2024 (GLE 75) Caused by Solar Energetic Particles [4]
   Poluianov, Stepan, Mishev, Alexander, Kryakunova, Olga, Seifullina, Botakoz, Nikolayevskiy, Nikolay & Usoskin, Ilya, Solar Physics, 300, 113

2024

1. Revision of the strongest solar energetic particle event of 23 February 1956 (GLE #5) based on the rediscovered original records [5]
   Hayakawa, Hisashi, Koldobskiy, Sergey, Mishev, Alexander, Poluianov, Stepan, Gil, Agnieszka, Usoskina, Inna & Usoskin, Ilya, A&A, 684, A46
2. Relationship Between NM Data and Radiation Dose at Aviation Altitudes During GLE Events [5]
   Larsen, N. & Mishev, A., Space Weather, 22, e2024SW003885
3. Spectra and Anisotropy of Solar Energetic Protons During GLE #65 on 28 October, 2003 and GLE #66 on 29 October, 2003 [7]
   Mishev, Alexander L., Koldobskiy, Sergey A., Larsen, Nicholas & Usoskin, Ilya G., Solar Physics, 299, 24
4. Updated model of cosmic-ray-induced ionization in the atmosphere (CRAC:CRII_v3): Improved yield function and lookup tables [4]
   Usoskin, I. G., Kovaltsov, G. A. & Mishev, A. L., Journal of Space Weather and Space Climate, 14, 20

2023

1. Analysis of the Ground Level Enhancement GLE 60 on 15 April 2001, and Its Space Weather Effects: Comparison With Dosimetric Measurements [8]
   Larsen, N. & Mishev, A. L., Space Weather, 21, e2023SW003488
2. A New Open-Source Geomagnetosphere Propagation Tool (OTSO) and Its Applications [23]
   Larsen, Nicholas, Mishev, Alexander & Usoskin, Ilya, Journal of Geophysical Research (Space Physics), 128, e2022JA031061
3. Assessment of the radiation risk at flight altitudes for an extreme solar particle storm of 774 AD [5]
   Mishev, Alexander, Panovska, Sanja & Usoskin, Ilya, Journal of Space Weather and Space Climate, 13, 22
4. Effects of Global Geomagnetic Field Variations Over the Past 100,000 Years on Cosmogenic Radionuclide Production Rates in the Earth's Atmosphere [7]
   Panovska, Sanja, Poluianov, Stepan, Gao, Jiawei, Korte, Monika, Mishev, Alexander, Shprits, Yuri Y. & Usoskin, Ilya, Journal of Geophysical Research (Space Physics), 128, e2022JA031158

2022

1. A New Open-source Geomagnetosphere propagation tool (OTSO) and its applications [0]
   Larsen, Nicholas, Mishev, Alexander L. & Usoskin, Ilya G., essoar.10512572
2. Measurements of natural radiation with an MDU Liulin type device at ground and in the atmosphere at various conditions in the Arctic region [7]
   Mishev, Alexander, Binios, Alexandros, Turunen, Esa, Leppänen, Ari-Pekka, Larsen, Nicholas, Tanskanen, Eija, Usoskin, Ilya, Envall, Jouni, Iinatti, Toivo & Lakkala, Pasi, Radiation Measurements, 154, 106757
3. High-Resolution Spectral and Anisotropy Characteristics of Solar Protons During the GLE N^∘73 on 28 October 2021 Derived with Neutron-Monitor Data Analysis [35]
   Mishev, Alexander L., Kocharov, Leon G., Koldobskiy, Sergey A., Larsen, Nicholas, Riihonen, Esa, Vainio, Rami & Usoskin, Ilya G., Solar Physics, 297, 88
4. The first ground-level enhancement of solar cycle 25 on 28 October 2021 [55]
   Papaioannou, A., Kouloumvakos, A., Mishev, A., Vainio, R., Usoskin, I., Herbst, K., Rouillard, A. P., Anastasiadis, A., Gieseler, J., Wimmer-Schweingruber, R. & Kühl, P., A&A, 660, L5

2021

1. About the Altitude Profile of the Atmospheric Cut-Off of Cosmic Rays: New Revised Assessment [25]
   Mishev, Alexander & Poluianov, Stepan, Solar Physics, 296, 129
2. GLE # 67 Event on 2 November 2003: An Analysis of the Spectral and Anisotropy Characteristics Using Verified Yield Function and Detrended Neutron Monitor Data [21]
   Mishev, Alexander L., Koldobskiy, Sergey A., Kocharov, Leon G. & Usoskin, Ilya G., Solar Physics, 296, 79
3. High Altitude Polar NM With the New DAQ System as a Tool to Study Details of the Cosmic Ray Induced Nucleonic Cascade [4]
   Similä, Markus, Usoskin, Ilya, Poluianov, Stepan, Mishev, Alexander, Kovaltsov, Gennady A. & Strauss, Du Toit, Journal of Geophysical Research (Space Physics), 126, e28959

2020

1. Updated Neutron-Monitor Yield Function: Bridging Between In Situ and Ground-Based Cosmic Ray Measurements [56]
   Mishev, Alexander L., Koldobskiy, Sergey A., Kovaltsov, Gennady A., Gil, Agnieszka & Usoskin, Ilya G., Journal of Geophysical Research (Space Physics), 125, e27433
2. Revisited Reference Solar Proton Event of 23 February 1956: Assessment of the Cosmogenic-Isotope Method Sensitivity to Extreme Solar Events [44]
   Usoskin, Ilya G., Koldobskiy, Sergey A., Kovaltsov, Gennady A., Rozanov, Eugene V., Sukhodolov, Timofei V., Mishev, Alexander L. & Mironova, Irina A., Journal of Geophysical Research (Space Physics), 125, e27921

2019

1. In Situ Data and Effect Correlation During September 2017 Solar Particle Event [45]
   Jiggens, P., Clavie, C., Evans, H., O'Brien, T. P., Witasse, O., Mishev, A. L., Nieminen, P., Daly, E., Kalegaev, V., Vlasova, N., Borisov, S., Benck, S., Poivey, C., Cyamukungu, M., Mazur, J., Heynderickx, D., Sandberg, I., Berger, T., Usoskin, I. G., Paassilta, M., Vainio, R., Straube, U., Müller, D., Sánchez-Cano, B., Hassler, D., Praks, J., Niemelä, P., Leppinen, H., Punkkinen, A., Aminalragia-Giamini, S. & Nagatsuma, T., Space Weather, 17, 99
2. New Method of Assessment of the Integral Fluence of Solar Energetic (> 1 GV Rigidity) Particles from Neutron Monitor Data [20]
   Koldobskiy, Sergey A., Kovaltsov, Gennady A., Mishev, Alexander L. & Usoskin, Ilya G., Solar Physics, 294, 94
3. Ionization of the Polar Atmosphere by Energetic Electron Precipitation Retrieved From Balloon Measurements [31]
   Mironova, I. A., Artamonov, A. A., Bazilevskaya, G. A., Rozanov, E. V., Kovaltsov, G. A., Makhmutov, V. S., Mishev, A. L. & Karagodin, A. V., Geophysical Research Letters, 46, 990

2018

1. An Anisotropic Cosmic-Ray Enhancement Event on 07-June-2015: A Possible Origin [15]
   Gil, Agnieszka, Kovaltsov, Gennady A., Mikhailov, Vladimir V., Mishev, Alexander, Poluianov, Stepan & Usoskin, Ilya G., Solar Physics, 293, 154
2. First Analysis of Ground-Level Enhancement (GLE) 72 on 10 September 2017: Spectral and Anisotropy Characteristics [57]
   Mishev, A., Usoskin, I., Raukunen, O., Paassilta, M., Valtonen, E., Kocharov, L. & Vainio, R., Solar Physics, 293, 136
3. Assessment of the Radiation Environment at Commercial Jet-Flight Altitudes During GLE 72 on 10 September 2017 Using Neutron Monitor Data [34]
   Mishev, A. L. & Usoskin, I. G., Space Weather, 16, 1921

2017

1. Calculation of atmospheric ionization induced by electrons with non-vertical precipitation: Updated model CRAC-EPII [18]
   Artamonov, Anton, Mironova, Irina, Kovaltsov, Gennady, Mishev, Alexander, Plotnikov, Evgenii & Konstantinova, Natalia, Advances in Space Research, 59, 2295
2. Investigating the Origins of Two Extreme Solar Particle Events: Proton Source Profile and Associated Electromagnetic Emissions [35]
   Kocharov, Leon, Pohjolainen, Silja, Mishev, Alexander, Reiner, Mike J., Lee, Jeongwoo, Laitinen, Timo, Didkovsky, Leonid V., Pizzo, Victor J., Kim, Roksoon, Klassen, Andreas, Karlicky, Marian, Cho, Kyung-Suk, Gary, Dale E., Usoskin, Ilya, Valtonen, Eino & Vainio, Rami, ApJ, 839, 79
3. GLE and Sub-GLE Redefinition in the Light of High-Altitude Polar Neutron Monitors [85]
   Poluianov, S. V., Usoskin, I. G., Mishev, A. L., Shea, M. A. & Smart, D. F., Solar Physics, 292, 176
4. Heliospheric modulation of cosmic rays during the neutron monitor era: Calibration using PAMELA data for 2006-2010 [136]
   Usoskin, Ilya G., Gil, Agnieszka, Kovaltsov, Gennady A., Mishev, Alexander L. & Mikhailov, Vladimir V., Journal of Geophysical Research (Space Physics), 122, 3875

2016

1. Model CRAC:EPII for atmospheric ionization due to precipitating electrons: Yield function and applications [14]
   Artamonov, A. A., Mishev, A. L. & Usoskin, I. G., Journal of Geophysical Research (Space Physics), 121, 1736
2. Neutron monitor yield function for solar neutrons: A new computation [5]
   Artamonov, A. A., Kovaltsov, G. A., Mishev, A. L. & Usoskin, I. G., Journal of Geophysical Research (Space Physics), 121, 117
3. Atmospheric ionization induced by precipitating electrons: Comparison of CRAC:EPII model with a parametrization model [15]
   Artamonov, A. A., Mishev, A. L. & Usoskin, I. G., Journal of Atmospheric and Solar-Terrestrial Physics, 149, 161
4. Analysis of the Ground-Level Enhancements on 14 July 2000 and 13 December 2006 Using Neutron Monitor Data [40]
   Mishev, A. & Usoskin, I., Solar Physics, 291, 1225
5. Contribution of cosmic ray particles to radiation environment at high mountain altitude: Comparison of Monte Carlo simulations with experimental data [7]
   Mishev, A. L., Journal of Environmental Radioactivity, 153, 15
6. Production of cosmogenic isotopes ⁷Be, ¹⁰Be, ¹⁴C, ²²Na, and ³⁶Cl in the atmosphere: Altitudinal profiles of yield functions [109]
   Poluianov, S. V., Kovaltsov, G. A., Mishev, A. L. & Usoskin, I. G., Journal of Geophysical Research (Atmospheres), 121, 8125

2015

1. Can we properly model the neutron monitor count rate? [36]
   Gil, Agnieszka, Usoskin, Ilya G., Kovaltsov, Gennady A., Mishev, Alexander L., Corti, Claudio & Bindi, Veronica, Journal of Geophysical Research (Space Physics), 120, 7172
2. Time evolution of ionization effect due to cosmic rays in terrestrial atmosphere during GLE 70 [15]
   Mishev, A. L. & Velinov, P. I. Y., Journal of Atmospheric and Solar-Terrestrial Physics, 129, 78
3. Computation of dose rate at flight altitudes during ground level enhancements no. 69, 70 and 71 [27]
   Mishev, A. L., Adibpour, F., Usoskin, I. G. & Felsberger, E., Advances in Space Research, 55, 354
4. Numerical model for computation of effective and ambient dose equivalent at flight altitudes. Application for dose assessment during GLEs [32]
   Mishev, Alexander & Usoskin, Ilya, Journal of Space Weather and Space Climate, 5, A10
5. Mini Neutron Monitors at Concordia Research Station, Central Antarctica [24]
   Poluianov, Stepan, Usoskin, Ilya, Mishev, Alexander, Moraal, Harm, Kruger, Helena, Casasanta, Giampietro, Traversi, Rita & Udisti, Roberto, Journal of Astronomy and Space Sciences, 32, 281

2014

1. Analysis of the ground level enhancement on 17 May 2012 using data from the global neutron monitor network [67]
   Mishev, A. L., Kocharov, L. G. & Usoskin, I. G., Journal of Geophysical Research (Space Physics), 119, 670
2. Influence of hadron and atmospheric models on computation of cosmic ray ionization in the atmosphere-Extension to heavy nuclei [18]
   Mishev, A. L. & Velinov, P. I. Y., Journal of Atmospheric and Solar-Terrestrial Physics, 120, 111
3. Computation of radiation environment during ground level enhancements 65, 69 and 70 at equatorial region and flight altitudes [11]
   Mishev, A. L., Advances in Space Research, 54, 528

2013

1. The influence of low energy hadron interaction models in CORSIKA code on atmospheric ionization due to heavy nuclei [0]
   Mishev, A. & Y Velinov, P. I., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012209
2. Computations of cosmic ray propagation in the Earth's atmosphere, towards a GLE analysis [8]
   Mishev, A. & Usoskin, I., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012152
3. Neutron monitor yield function: New improved computations [68]
   Mishev, A. L., Usoskin, I. G. & Kovaltsov, G. A., Journal of Geophysical Research (Space Physics), 118, 2783
4. Eccentric dipole approximation of the geomagnetic field: Application to cosmic ray computations [47]
   Nevalainen, J., Usoskin, I. G. & Mishev, A., Advances in Space Research, 52, 22
5. The first SEPServer event catalogue ~68-MeV solar proton events observed at 1 AU in 1996-2010 [97]
   Vainio, Rami, Valtonen, Eino, Heber, Bernd, Malandraki, Olga E., Papaioannou, Athanasios, Klein, Karl-Ludwig, Afanasiev, Alexander, Agueda, Neus, Aurass, Henry, Battarbee, Markus, Braune, Stephan, Dröge, Wolfgang, Ganse, Urs, Hamadache, Clarisse, Heynderickx, Daniel, Huttunen-Heikinmaa, Kalle, Kiener, Jürgen, Kilian, Patrick, Kopp, Andreas, Kouloumvakos, Athanasios, Maisala, Sami, Mishev, Alexander, Miteva, Rositsa, Nindos, Alexander, Oittinen, Tero, Raukunen, Osku, Riihonen, Esa, Rodríguez-Gasén, Rosa, Saloniemi, Oskari, Sanahuja, Blai, Scherer, Renate, Spanier, Felix, Tatischeff, Vincent, Tziotziou, Kostas, Usoskin, Ilya G. & Vilmer, Nicole, Journal of Space Weather and Space Climate, 3, A12
6. Improved COsmic Ray Ionization Model for Atmosphere and Ionosphere (CORIMIA) with account of Monte Carlo Simulations [0]
   Velinov, P. Y. I., Asenovski, S., Mateev, L. & Mishev, A., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012212
7. Impact of cosmic rays and solar energetic particles on the Earth's ionosphere and atmosphere [31]
   Velinov, Peter I. Y., Asenovski, Simeon, Kudela, Karel, Lastovicka, Jan, Mateev, Lachezar, Mishev, Alexander & Tonev, Peter, Journal of Space Weather and Space Climate, 3, A14
8. Comparison of ionization effect in the atmosphere of the Earth due to GLE 65 and GLE 69 [2]
   Y Velinov, P. I. & Mishev, A., Journal of Physics Conference Series, Journal of Physics Conference Series, 409, p. 012211

2012

1. A new model of cosmogenic production of radiocarbon ¹⁴C in the atmosphere [126]
   Kovaltsov, Gennady A., Mishev, Alexander & Usoskin, Ilya G., Earth and Planetary Science Letters, 337, 114
2. Recent gamma background measurements at high mountain altitude [8]
   Mishev, A. L. & Hristova, E., Journal of Environmental Radioactivity, 113, 77
3. Ionization effect of nuclei with solar and galactic origin in the Earth atmosphere during GLE 69 on 20 January 2005 [15]
   Mishev, A. L., Velinov, P. I. Y., Mateev, L. & Tassev, Y., Journal of Atmospheric and Solar-Terrestrial Physics, 89, 1

2011

1. Ionization effect of solar protons in the Earth atmosphere - Case study of the 20 January 2005 SEP event [19]
   Mishev, A. L., Velinov, P. I. Y., Mateev, L. & Tassev, Y., Advances in Space Research, 48, 1232
2. Normalized ionization yield function for various nuclei obtained with full Monte Carlo simulations [20]
   Mishev, A. L. & Velinov, P. I. Y., Advances in Space Research, 48, 19
3. Atmospheric Ionization due to SEP on 28 October 2003 and 20 January 2005 [0]
   Mishev, Alexander, International Cosmic Ray Conference, International Cosmic Ray Conference, 11, p. 318
4. Normalization of Ionization Yield function Y for various nuclei [0]
   Mishev, Alexander, International Cosmic Ray Conference, International Cosmic Ray Conference, 11, p. 314

2010

1. 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
2. A study of atmospheric processes based on neutron monitor data and Cherenkov counter measurements at high mountain altitude [4]
   Mishev, A. L., Journal of Atmospheric and Solar-Terrestrial Physics, 72, 1195
3. The effect of model assumptions on computations of cosmic ray induced ionization in the atmosphere [16]
   Mishev, A. L. & Velinov, P., Journal of Atmospheric and Solar-Terrestrial Physics, 72, 476

2009

1. Cosmic ray studies at Moussala - Past, present and future [7]
   Mishev, A. L., Stamenov, J. N., Angelov, I. I., Ahababian, N. O., Kirov, I. N. & Malamova, E. S., Advances in Space Research, 44, 1173
2. Model for induced ionization by galactic cosmic rays in the Earth atmosphere and ionosphere [29]
   Velinov, P. I. Y., Mishev, A. & Mateev, L., Advances in Space Research, 44, 1002

2008

1. Present status and further possibilities for space weather studies at BEO Moussala [5]
   Mishev, A. L. & Stamenov, J. N., Journal of Atmospheric and Solar-Terrestrial Physics, 70, 680

2007

1. The Neutron Flux Meter and Muon Hodoscope Present Status and Further Development [0]
   Mishev, Alexander & Stamenov, Jordan, Sixth International Conference of the Balkan Physical Union (Editors: Cetin, Serkant Ali & Hikmet, Iskender), American Institute of Physics Conference Series, 899, p. 727
2. Cherenkov Telescope for Ground Based Gamma Astronomy Kartalska Field Project Proposal [2]
   Mishev, Alexander & Stamenov, Jordan, Sixth International Conference of the Balkan Physical Union (Editors: Cetin, Serkant Ali & Hikmet, Iskender), American Institute of Physics Conference Series, 899, p. 548
3. Connection Between Astroparticle and Environmental Studies at BEO Moussala [0]
   Mishev, Alexander & Stamenov, Jordan, Sixth International Conference of the Balkan Physical Union (Editors: Cetin, Serkant Ali & Hikmet, Iskender), American Institute of Physics Conference Series, 899, p. 409
4. Mass Composition and Energy Estimation of Primary Cosmic Ray Using Atmospheric Cherenkov Light Reconstruction [0]
   Mishev, Alexander, Mavrodiev, Strashimir & Stamenov, Jordan, Sixth International Conference of the Balkan Physical Union (Editors: Cetin, Serkant Ali & Hikmet, Iskender), American Institute of Physics Conference Series, 899, p. 129

2005

1. Gamma Rays Studies Based on Atmospheric Cherenkov Technique at High Mountain Altitude [18]
   Mishev, A., Mavrodiev, S. & Stamenov, J., International Journal of Modern Physics A, 20, 7016

2004

1. A method for energy estimation and mass composition determination of primary cosmic rays at the Chacaltaya observation level based on the atmospheric Cherenkov light technique [19]
   Mavrodiev, S. Cht., Mishev, A. L. & Stamenov, J. N., Nuclear Instruments and Methods in Physics Research A, 530, 359

2001

1. Modelling and study of the Cherenkov effect [0]
   Mishev, A., Duverger, E., Makovicka, L. & Stamenov, J., Radiation Physics and Chemistry, 61, 371
2. Experimental study and Monte Carlo modeling of the Cherenkov effect [6]
   Mishev, A., Angelov, I., Duverger, E., Gschwind, R., Makovicka, L. & Stamenov, J., Nuclear Instruments and Methods in Physics Research A, 474, 101