Publications of A. M. Uralov

A list of publications authored or co-authored by A. M. Uralov, 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: 0000-0002-0273-138X

List of publications ordered by citations
Number of papers: 98 (refereed: 80)
No. of citations: 1342
First author papers: 32 (refereed: 28)

2025

1. Mysteries of the 17 May 2012 Solar Event Responsible for GLE71: II. Features of the Flare and Its Atypical Microwave Emission [0]
   Grechnev, V. V., Kiselev, V. I., Uralov, A. M., Meshalkina, N. S. & Lysenko, A. L., Solar Physics, 300, 29
2. Features of correlation curves of the Siberian Radioheliograph [0]
   Uralov, Arkadiy, Lesovoi, Sergey, Grechnev, Victor & Globa, Mariia, Solar-Terrestrial Physics, 11, 81

2024

1. Mysteries of the 17 May 2012 Solar Event Responsible for GLE71. I. CME Development and the Role of Disturbances Excited by Eruptions [3]
   Grechnev, V. V., Kiselev, V. I., Uralov, A. M., Meshalkina, N. S., Firoz, K. A. & Lysenko, A. L., Solar Physics, 299, 129
2. Localization of the Gamma-Ray Emission Region in the 1 September 2014 Behind-the-Limb Solar Flare According to the Fermi/LAT Data [3]
   Kochanov, A. A., Kiselev, V. I., Grechnev, V. V. & Uralov, A. M., Solar Physics, 299, 18

2023

1. Eruptive Flare, CME, and Shock Wave in the 25 August 2001 High-Energy Solar Event [2]
   Grechnev, V. V., Kochanov, A. A. & Uralov, A. M., Solar Physics, 298, 49
2. Plasma Heating in an Erupting Prominence Detected from Microwave Observations with the Siberian Radioheliograph [3]
   Uralov, A. M., Grechnev, V. V., Lesovoi, S. V. & Globa, M. V., Solar Physics, 298, 117

2022

1. Reconciling Observational Challenges to the Impulsive-Piston Shock-Excitation Scenario. II. Shock Waves Produced in CME-Less Events with a Null-Point Topology [3]
   Grechnev, V. V., Kiselev, V. I., Uralov, A. M. & Myshyakov, I. I., Solar Physics, 297, 123
2. Reconciling Observational Challenges to the Impulsive-Piston Shock-Excitation Scenario. I. Kinematic Challenges [6]
   Grechnev, V. V., Kiselev, V. I. & Uralov, A. M., Solar Physics, 297, 106

2021

1. Microwave indicator of potential geoeffectiveness and magnetic flux-rope structure of a solar active region [3]
   Kudriavtseva, Anastasiia, Myshyakov, Ivan, Uralov, Arkadiy & Grechnev, Victor, Solar-Terrestrial Physics, 7, 3

2020

1. Multiwave Siberian Radioheliograph [30]
   Altyntsev, Alexander, Lesovoi, Sergey, Globa, Mariia, Gubin, Aleksey, Kochanov, Aleksey, Grechnev, Victor, Ivanov, Evgeniy, Kobets, Veronika, Meshalkina, Nataliya, Muratov, Anatoliy, Prosovetsky, Dmitriy, Myshyakov, Ivan, Uralov, Arkadiy & Fedotova, Anastasiya, Solar-Terrestrial Physics, 6, 30
2. Twin Null-Point-Associated Major Eruptive Three-Ribbon Flares with Unusual Microwave Spectra [3]
   Grechnev, V. V., Meshalkina, N. S., Uralov, A. M., Kochanov, A. A., Lesovoi, S. V., Myshyakov, I. I., Kiselev, V. I., Zhdanov, D. A., Altyntsev, A. T. & Globa, M. V., Solar Physics, 295, 128

2019

1. Development of a Fast CME and Properties of a Related Interplanetary Transient [16]
   Grechnev, V. V., Kochanov, A. A., Uralov, A. M., Slemzin, V. A., Rodkin, D. G., Goryaev, F. F., Kiselev, V. I. & Myshyakov, I. I., Solar Physics, 294, 139
2. Self-similar Piston-Shock and CME [6]
   Uralov, A. M., Grechnev, V. V. & Ivanukin, L. A., Solar Physics, 294, 113

2018

1. Radio, Hard X-Ray, and Gamma-Ray Emissions Associated with a Far-Side Solar Event [29]
   Grechnev, V. V., Kiselev, V. I., Kashapova, L. K., Kochanov, A. A., Zimovets, I. V., Uralov, A. M., Nizamov, B. A., Grigorieva, I. Y., Golovin, D. V., Litvak, M. L., Mitrofanov, I. G. & Sanin, A. B., Solar Physics, 293, 133
2. Multi-instrument view on solar eruptive events observed with the Siberian Radioheliograph: From detection of small jets up to development of a shock wave and CME [22]
   Grechnev, V. V., Lesovoi, S. V., Kochanov, A. A., Uralov, A. M., Altyntsev, A. T., Gubin, A. V., Zhdanov, D. A., Ivanov, E. F., Smolkov, G. Ya. & Kashapova, L. K., Journal of Atmospheric and Solar-Terrestrial Physics, 174, 46

2017

1. The 26 December 2001 Solar Eruptive Event Responsible for GLE63. II. Multi-Loop Structure of Microwave Sources in a Major Long-Duration Flare [14]
   Grechnev, V., Uralov, A. M., Kiselev, V. I. & Kochanov, A. A., Solar Physics, 292, 3
2. The 26 December 2001 Solar Eruptive Event Responsible for GLE63: III. CME, Shock Waves, and Energetic Particles [14]
   Grechnev, V. V., Kiselev, V. I., Uralov, A. M., Klein, K.-L. & Kochanov, A. A., Solar Physics, 292, 102
3. Siberian Radioheliograph: first results [21]
   Lesovoi, Sergey, Altyntsev, Alexander, Kochanov, Aleksey, Grechnev, Victor, Gubin, Aleksey, Zhdanov, Dmitriy, Ivanov, Evgeniy, Uralov, Arkadiy, Kashapova, Larisa, Kuznetsov, Aleksey, Meshalkina, Nataliya & Sych, Robert, Solar-Terrestrial Physics, 3, 3

2016

1. Slow-Mode MHD Wave Penetration into a Coronal Null Point due to the Mode Transmission [5]
   Afanasyev, Andrey N. & Uralov, Arkadiy M., Solar Physics, 291, 3185
2. A Tiny Eruptive Filament as a Flux-Rope Progenitor and Driver of a Large-Scale CME and Wave [29]
   Grechnev, V. V., Uralov, A. M., Kochanov, A. A., Kuzmenko, I. V., Prosovetsky, D. V., Egorov, Y. I., Fainshtein, V. G. & Kashapova, L. K., Solar Physics, 291, 1173

2015

1. Responsibility of a Filament Eruption for the Initiation of a Flare, CME, and Blast Wave, and its Possible Transformation into a Bow Shock [27]
   Grechnev, V. V., Uralov, A. M., Kuzmenko, I. V., Kochanov, A. A., Chertok, I. M. & Kalashnikov, S. S., Solar Physics, 290, 129

2014

1. A Challenging Solar Eruptive Event of 18 November 2003 and the Causes of the 20 November Geomagnetic Superstorm. IV. Unusual Magnetic Cloud and Overall Scenario [21]
   Grechnev, V. V., Uralov, A. M., Chertok, I. M., Belov, A. V., Filippov, B. P., Slemzin, V. A. & Jackson, B. V., Solar Physics, 289, 4653
2. A Challenging Solar Eruptive Event of 18 November 2003 and the Causes of the 20 November Geomagnetic Superstorm. II. CMEs, Shock Waves, and Drifting Radio Bursts [23]
   Grechnev, V. V., Uralov, A. M., Chertok, I. M., Slemzin, V. A., Filippov, B. P., Egorov, Y. I., Fainshtein, V. G., Afanasyev, A. N., Prestage, N. P. & Temmer, M., Solar Physics, 289, 1279
3. A Challenging Solar Eruptive Event of 18 November 2003 and the Causes of the 20 November Geomagnetic Superstorm. I. Unusual History of an Eruptive Filament [20]
   Grechnev, V. V., Uralov, A. M., Slemzin, V. A., Chertok, I. M., Filippov, B. P., Rudenko, G. V. & Temmer, M., Solar Physics, 289, 289
4. A Challenging Solar Eruptive Event of 18 November 2003 and the Causes of the 20 November Geomagnetic Superstorm. III. Catastrophe of the Eruptive Filament at a Magnetic Null Point and Formation of an Opposite-Handedness CME [13]
   Uralov, A. M., Grechnev, V. V., Rudenko, G. V., Myshyakov, I. I., Chertok, I. M., Filippov, B. P. & Slemzin, V. A., Solar Physics, 289, 3747

2013

1. Propagation of a fast magnetoacoustic shock wave in the magnetosphere of an active region [15]
   Afanasyev, A. N., Uralov, A. M. & Grechnev, V. V., Astronomy Reports, 57, 594
2. Microwave Negative Bursts as Indications of Reconnection Between Eruptive Filaments and a Large-Scale Coronal Magnetic Environment [11]
   Grechnev, Victor V., Kuz'menko, Irina V., Uralov, Arkadiy M., Chertok, Ilya M. & Kochanov, Alexey A., Publications of the Astronomical Society of Japan, 65, S10
3. An Updated View of Solar Eruptive Flares and the Development of Shocks and CMEs: History of the 2006 December 13 GLE-Productive Extreme Event [22]
   Grechnev, Victor V., Kiselev, Valentin I., Uralov, Arkadiy M., Meshalkina, Nataliya S. & Kochanov, Alexey A., Publications of the Astronomical Society of Japan, 65, S9

2012

1. Coronal Shock Waves, EUV Waves, and Their Relation to CMEs. II. Modeling MHD Shock Wave Propagation Along the Solar Surface, Using Nonlinear Geometrical Acoustics [0]
   Afanasyev, A. N. & Uralov, A. M., Energy Storage and Release through the Solar Activity Cycle (Editors: Marqué, Christophe & Nindos, Alexander), p.173
2. Modelling the Propagation of a Weak Fast-Mode MHD Shock Wave near a 2D Magnetic Null Point Using Nonlinear Geometrical Acoustics [16]
   Afanasyev, A. N. & Uralov, A. M., Solar Physics, 280, 561
3. Coronal Shock Waves, EUV Waves, and Their Relation to CMEs. III. Shock-Associated CME/EUV Wave in an Event with a Two-Component EUV Transient [0]
   Grechnev, V. V., Afanasyev, A. N., Uralov, A. M., Chertok, I. M., Eselevich, M. V., Eselevich, V. G., Rudenko, G. V. & Kubo, Y., Energy Storage and Release through the Solar Activity Cycle (Editors: Marqué, Christophe & Nindos, Alexander), p.155
4. Coronal Shock Waves, EUV Waves, and Their Relation to CMEs. I. Reconciliation of "EIT Waves", Type II Radio Bursts, and Leading Edges of CMEs [1]
   Grechnev, V. V., Uralov, A. M., Chertok, I. M., Kuzmenko, I. V., Afanasyev, A. N., Meshalkina, N. S., Kalashnikov, S. S. & Kubo, Y., Energy Storage and Release through the Solar Activity Cycle (Editors: Marqué, Christophe & Nindos, Alexander), p.127

2011

1. Coronal Shock Waves, EUV Waves, and Their Relation to CMEs. II. Modeling MHD Shock Wave Propagation Along the Solar Surface, Using Nonlinear Geometrical Acoustics [34]
   Afanasyev, A. N. & Uralov, A. M., Solar Physics, 273, 479
2. Using the nonlinear geometrical acoustics method in the problem of moreton and EUV wave propagation in the solar corona [0]
   Afanasyev, An. N., Uralov, A. M. & Grechnev, V. V., Geomagnetism and Aeronomy, 51, 1015
3. Coronal Shock Waves, EUV Waves, and Their Relation to CMEs. III. Shock-Associated CME/EUV Wave in an Event with a Two-Component EUV Transient [47]
   Grechnev, V. V., Afanasyev, A. N., Uralov, A. M., Chertok, I. M., Eselevich, M. V., Eselevich, V. G., Rudenko, G. V. & Kubo, Y., Solar Physics, 273, 461
4. Coronal Shock Waves, EUV Waves, and Their Relation to CMEs. I. Reconciliation of "EIT Waves", Type II Radio Bursts, and Leading Edges of CMEs [68]
   Grechnev, V. V., Uralov, A. M., Chertok, I. M., Kuzmenko, I. V., Afanasyev, A. N., Meshalkina, N. S., Kalashnikov, S. S. & Kubo, Y., Solar Physics, 273, 433
5. Solar flare-related eruptions followed by long-lasting occultation of the emission in the He II 304 Å line and in microwaves [10]
   Grechnev, V. V., Kuzmenko, I. V., Chertok, I. M. & Uralov, A. M., Astronomy Reports, 55, 637
6. Moreton wave, "EIT wave", and type II radio burst as manifestations of a single wave front [0]
   Kuzmenko, I. V., Grechnev, V. V. & Uralov, A. M., Geomagnetism and Aeronomy, 51, 1045

2010

1. An experience of radioheliographic prediction of powerful solar flares [1]
   Smol'Kov, G. Ya., Maksimov, V. P., Prosovetskii, D. V., Uralov, A. M. & Bakunina, I. A., Bulletin Crimean Astrophysical Observatory, 106, 31

2009

1. Large-scale phenomena on the Sun associated with the eruption of filaments outside active regions: the event of September 12, 1999 [5]
   Chertok, I. M., Grechnev, V. V. & Uralov, A. M., Astronomy Reports, 53, 355
2. A study of eruptive solar events with negative radio bursts [9]
   Kuz'menko, I. V., Grechnev, V. V. & Uralov, A. M., Astronomy Reports, 53, 1039
3. Eruptions of Magnetic Ropes in Two Homologous Solar Events of 2002 June 1 and 2: a Key to Understanding an Enigmatic Flare [19]
   Meshalkina, Nataliya S., Uralov, Arkadiy M., Grechnev, Victor V., Altyntsev, Alexander T. & Kashapova, Larisa K., Publications of the Astronomical Society of Japan, 61, 791
4. Radio-heliographic diagnostics of the potential flare productivity of active regions [4]
   Smolkov, G. Ya., Uralov, A. M. & Bakunina, I. A., Geomagnetism and Aeronomy, 49, 1101

2008

1. Absorption Phenomena and a Probable Blast Wave in the 13 July 2004 Eruptive Event [51]
   Grechnev, V. V., Uralov, A. M., Slemzin, V. A., Chertok, I. M., Kuzmenko, I. V. & Shibasaki, K., Solar Physics, 253, 263
2. An Extreme Solar Event of 20 January 2005: Properties of the Flare and the Origin of Energetic Particles [100]
   Grechnev, V. V., Kurt, V. G., Chertok, I. M., Uralov, A. M., Nakajima, H., Altyntsev, A. T., Belov, A. V., Yushkov, B. Yu., Kuznetsov, S. N., Kashapova, L. K., Meshalkina, N. S. & Prestage, N. P., Solar Physics, 252, 149
3. Microwave Neutral Line Associated Source and a Current Sheet [26]
   Uralov, A. M., Grechnev, V. V., Rudenko, G. V., Rudenko, I. G. & Nakajima, H., Solar Physics, 249, 315

2006

1. Observations of quiet solar features with the SSRT and NoRH [2]
   Grechnev, V. V., Uralov, A. M., Maksimov, V. P., Zandanov, V. G., Smolkov, G. Y., Altyntsev, A. T., Krissinel, B. B., Kardapolova, N. N., Lesovoi, A. V., Lubyshev, B. I., Prosovetsky, D. V. & Rudenko, G. V., Solar Physics with the Nobeyama Radioheliograph, p. 101
2. Long-lived hot coronal structures observed with CORONAS-F/SPIRIT in the Mg XII line [19]
   Grechnev, V. V., Kuzin, S. V., Urnov, A. M., Zhitnik, I. A., Uralov, A. M., Bogachev, S. A., Livshits, M. A., Bugaenko, O. I., Zandanov, V. G., Ignat'ev, A. P., Krutov, V. V., Oparin, S. N., Pertsov, A. A., Slemzin, V. A., Chertok, I. M. & Stepanov, A. I., Solar System Research, 40, 286
3. Observations of Prominence Eruptions with Two Radioheliographs, SSRT, and NoRH [29]
   Grechnev, Victor V., Uralov, Arkadiy M., Zandanov, Vasily G., Baranov, Nikolai Y. & Shibasaki, Kiyoto, Publications of the Astronomical Society of Japan, 58, 69
4. Plasma Parameters in a Post-Eruptive Arcade Observed with CORONAS-F/SPIRIT, Yohkoh/SXT, SOHO/EIT, and in Microwaves [27]
   Grechnev, Victor V., Uralov, Arkadiy M., Zandanov, Vasily G., Rudenko, George V., Borovik, Valery N., Grigorieva, Irina Y., Slemzin, Vladimir A., Bogachev, Sergey A., Kuzin, Sergei V., Zhitnik, Igor'a., Pertsov, Andrey A., Shibasaki, Kiyoto & Livshits, Moisey A., Publications of the Astronomical Society of Japan, 58, 55
5. 17GHz Neutral Line Associated Sources: Birth, Motion, and Projection Effect [17]
   Uralov, Arkadiy M., Rudenko, George V. & Rudenko, Ilia G., Publications of the Astronomical Society of Japan, 58, 21

2005

1. Observations of a Post-Eruptive Arcade on October 22, 2001 with CORONAS-F, other Spaceborne Telescopes, and in Microwaves [1]
   Borovik, V. N., Rudenko, G. V., Slemzin, V. A., Stepanov, A. I., Shibasaki, K., Uralov, A. M., Zandanov, V. G., Zhitnik, I. A., Grechnev, V. V., Bugaenko, O. I., Bogachev, S. A., Grigorieva, I. Y., Kuzin, S. V., Lesovoi, S. V., Livshits, M. A. & Pertsov, A. A., Coronal and Stellar Mass Ejections (Editors: Dere, Kenneth, Wang, Jingxiu & Yan, Yihua), IAU Symposium, 226, p. 108
2. Initial localization and kinematic characteristics of the structural components of a coronal mass ejection [20]
   Uralov, A. M., Grechnev, V. V. & Hudson, H. S., Journal of Geophysical Research (Space Physics), 110, A05104

2004

1. Observations of CME-related phenomena in a wide spectral range [3]
   Grechnev, V. V., Zandanov, V. G., Uralov, A. M., Maksimov, V. P., Rudenko, V. G., Borovik, V. N., Gelfreikh, G. B., Grigorieva, I. Y., Medar, V. G. & Korzhavin, A. N., Solar Physics, 225, 379
2. Observations of CME-related phenomena in a wide spectral range [0]
   Grechnev, V. V., Zandanov, V. G., Uralov, A. M., Maksimov, V. P., Borovik, V. N., Gelfreikh, G. B., Grigorieva, I. Y., Medar, V. G. & Korzhavin, A. N., Multi-Wavelength Investigations of Solar Activity (Editors: Stepanov, Alexander V., Benevolenskaya, Elena E. & Kosovichev, Alexander G.), IAU Symposium, 223, p. 725
3. The Excitation and Rapid Damping of Coronal Loop Oscillations Observed from the TRACE [0]
   Uralov, A. M., Multi-Wavelength Investigations of Solar Activity (Editors: Stepanov, Alexander V., Benevolenskaya, Elena E. & Kosovichev, Alexander G.), IAU Symposium, 223, p. 489
4. Initial localization and kinematic characteristics of structure components of a CME [1]
   Uralov, A. M. & Grechnev, V. V., Multi-Wavelength Investigations of Solar Activity (Editors: Stepanov, Alexander V., Benevolenskaya, Elena E. & Kosovichev, Alexander G.), IAU Symposium, 223, p. 303

2003

1. The Siberian Solar Radio Telescope: the current state of the instrument, observations, and data [90]
   Grechnev, V. V., Lesovoi, S. V., Smolkov, G. Ya., Krissinel, B. B., Zandanov, V. G., Altyntsev, A. T., Kardapolova, N. N., Sergeev, R. Y., Uralov, A. M., Maksimov, V. P. & Lubyshev, B. I., Solar Physics, 216, 239
2. Magnetoacoustic oscillations in spatially periodic solar coronal structures [5]
   Uralov, A. M., Solar Physics, 218, 17
3. The Resonant Excitation of Transverse Oscillations in Coronal Loops [16]
   Uralov, A. M., Astronomy Letters, 29, 486

2002

1. Dual-filament initiation of a Coronal Mass Ejection: Observations and Model [36]
   Uralov, A. M., Lesovoi, S. V., Zandanov, V. G. & Grechnev, V. V., Solar Physics, 208, 69

2001

1. The shock-acoustic waves generated by earthquakes [151]
   Afraimovich, E. L., Perevalova, N. P., Plotnikov, A. V. & Uralov, A. M., Annales Geophysicae, 19, 395

2000

1. Microwave Signatures of Solar Flare Buildup [2]
   Smolkov, G. Ya., Maksimov, V. P. & Uralov, A. M., Advances in Space Research, 26, 193
2. Current-sheet-associated radio sources and development of the magnetosphere of an active region revealed from 17 GHz and Yohkoh data [12]
   Uralov, A. M., Nakajima, H., Zandanov, V. G. & Grechnev, V. V., Solar Physics, 197, 275

1999

1. Evolution of Active Regions in Microwave Emission at the Stage of Their Initiation [0]
   Myachin, D. Yu., Nefedyev, V. P., Uralov, A. M., Lesovoi, S. V. & Smolkov, G. Ya., Proceedings of the Nobeyama Symposium (Editors: Bastian, T. S., Gopalswamy, N. & Shibasaki, K.), p. 89
2. Intensity Fluctuations of Solar Radio Emission, Scattered by Coronal Turbulence [0]
   Uralov, A. M., Proceedings of the Nobeyama Symposium (Editors: Bastian, T. S., Gopalswamy, N. & Shibasaki, K.), p. 261
3. Magnetic Neutral Line-Associated Radio Sources and Evolution of the Active Region NOAA 7321 [0]
   Uralov, A. M., Nakajima, H., Zandanov, V. G. & Grechnev, V. V., Proceedings of the Nobeyama Symposium (Editors: Bastian, T. S., Gopalswamy, N. & Shibasaki, K.), p. 93

1998

1. Weakly polarized microwave sources in active regions prior to large X-ray flares [10]
   Uralov, A. M., Sych, R. A., Shchepkina, V. L., Zubkova, G. N. & Smolkov, G. Ya., Solar Physics, 183, 359
2. Scintillation of Solar Radio Sources: Implication for Spikes [5]
   Uralov, A. M., Solar Physics, 183, 133
3. Two-dimensional SSRT observations of the flare-productive active region in July 1996 [12]
   Uralov, A. M., Grechnev, V. V., Lesovoi, S. V., Sych, R. A., Kardapolova, N. N., Smolkov, G. Ya. & Treskov, T. A., Solar Physics, 178, 119

1996

1. A `Magnetospheric` Scenario of the Solar Flare in a Quadrupole Magnetic Configuration [8]
   Uralov, A. M., Solar Physics, 168, 311

1995

1. Calculation of ionospheric effects due to acoustic radiation from an underground nuclear explosion [24]
   Rudenko, G. V. & Uralov, A. M., Journal of Atmospheric and Terrestrial Physics, 57, 225

1994

1. Fine structure superimposed on millimeter-wavelength (23 18 GHz) spectra of solar active regions [0]
   Sawant, H. S., Cecatto, J. R., Nefedyev, V. P. & Uralov, A. M., Solar Physics, 152, 381
2. Stepwise Emergence and Development of Microwave Emission of Active Regions - A Fundamental Property of Active Solar Corona [0]
   Smolkov, G. Ya., Nefedyev, V. P., Uralov, A. M. & Kardapolova, N. N., IAU Colloquium 144: Solar Coronal Structures (Editors: Rusin, Vojtech, Heinzel, Petr & Vial, Jean-Claude), p. 509
3. WKB Approach to the Problem of Magnetohydrodynamic Shock Propagation Through the Heliospheric Current Sheet [26]
   Uralova, S. V. & Uralov, A. M., Solar Physics, 152, 457

1993

1. Radio Observations of Compact Solar Sources Located Between Sunspots [17]
   Sych, R. A., Uralov, A. M. & Korzhavin, A. N., Solar Physics, 144, 59

1991

1. Spatial, spectral, and polarization properties of radio emission of the 3 February, 1983 proton flare [7]
   Bakunin, L. M., Ledenev, V. G., Nefedyev, V. P., Potapov, N. N., Smolkov, G. Ya., Uralov, A. M., Chernov, G. P., Fomichev, V. V., Melnikov, V. P., Podstrigach, T. S., Epifanova, O. V., Khokhlov, A. V. & Enome, Sh., Solar Physics, 135, 107

1990

1. The Flare as a Result of Cross-Interaction of Loops - Causal Relationship with a Prominence [10]
   Uralov, A. M., Solar Physics, 127, 253
2. External helical modes of a solitary current in an unconfined plasma [0]
   Uralov, A. M., Radiophysics and Quantum Electronics, 33, 859
3. The flare as a result of cross-interaction of loops [3]
   Uralov, A. M., Geophysical Monograph Series, 58, 285
4. A numerical calculation of parameters of explosion MHD shock waves from moderate solar flares. [1]
   Uralova, S. V. & Uralov, A. M., ESA Special Publication (Editors: Guyenne, T. Duc & Hunt, James J.), ESA Special Publication, 311, p. 99

1984

1. The response of the atmosphere to a weak ground explosion [4]
   Orlov, V. V. & Uralov, A. M., Akademiia Nauk SSSR Fizika Atmosfery i Okeana, 20, 476
2. Pulsations of Microwave Emission as a Consequence of Oscillatory Transients in the Solar Atmosphere [7]
   Zandanov, V. G. & Uralov, A. M., Solar Physics, 93, 301
3. Microwave Emission Pulsations of Active Regions on a Timescale of Seconds [4]
   Zandanov, V. G., Treskov, T. A. & Uralov, A. M., Issledovaniia Geomagnetizmu Aeronomii i Fizike Solntsa, 68, 21

1983

1. The Response of Microwave Emission of Local Sources to Magnetic Field Emergence Into the Corona [2]
   Zandanov, V. G. & Uralov, A. M., Issledovaniia Geomagnetizmu Aeronomii i Fizike Solntsa, 65, 107
2. Stable Quasi-Periodic Components of Solar Microwave Emission Fluctuations [4]
   Zandanov, V. G. & Uralov, A. M., Issledovaniia Geomagnetizmu Aeronomii i Fizike Solntsa, 65, 97

1982

1. Attenuation of a weak shock wave in an isothermal atmosphere with a correction made for dispersion [1]
   Uralov, A. M., Akademiia Nauk SSSR Fizika Atmosfery i Okeana, 18, 797

1979

1. Equilibrium and Stability of Magnetic Flux Ropes on the Sun [4]
   Solovev, A. A. & Uralov, A. M., Soviet Astronomy Letters, 5, 250

1978

1. The mechanism of formation of loop prominences [0]
   Uralov, A. M. & Fedorov, L. V., Soviet Astronomy, 22, 456

1977

1. Formation of shock waves from chromospheric flares and their evolution in the solar wind. [0]
   Stepanova, T. V. & Uralov, A. M., Simpoz. po Fiz. Geomagnitosfery, p. 6
2. Rope structure of a magnetic field rising to the solar surface [1]
   Uralov, A. M., Soviet Astronomy Letters, 3, 302
3. Some polarization features of microwave bursts on the sun [0]
   Uralov, A. M. & Nefedev, V. P., Soviet Astronomy, 21, 749

1976

1. On the mechanism of ejection of mass from the sun in transient phenomena [0]
   Uralov, A. M. & Kasinskii, V. V., Soviet Astronomy, 20, 715
2. Pulsed solar microwave bursts with a quasithermal spectrum [5]
   Uralov, A. M. & Nefed'Ev, V. P., Soviet Astronomy, 20, 590
3. Thermal radio emission from an explosion in a stellar atmosphere [0]
   Uralov, A. M., Soviet Astronomy, 20, 438
4. Prolonged containment of fast particles in a magnetic trap [0]
   Uralov, A. M., Soviet Astronomy, 19, 469
5. Shock waves in magnetohydrodynamics far from their initiation point [0]
   Uralov, A. M., Magnitnaia Gidrodinamika, , 131

1975

1. Relaxation of an electron beam in collisionless shock waves in the corona [1]
   Uralov, A. M., Soviet Astronomy, 18, 761