Publications of G. V. Rudenko

A list of publications authored or co-authored by G. V. Rudenko, 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: 0000-0003-0789-1574

List of publications ordered by citations
Number of papers: 40 (refereed: 30)
No. of citations: 204
First author papers: 7 (refereed: 7)

2025

1. Relationship between increasing CME velocity at the initial stage of motion and change in magnetic conditions in the mass ejection generating area [0]
   Fainshtein, Victor, Rudenko, Georgiy & Zagainova, Yulia, Solar-Terrestrial Physics, 11, 3

2024

1. The Influence of Explosive Processes in Active Regions on the Characteristics of the Magnetic Field in the Umbra of Sunspots Depending on Their Size and Position [1]
   Zagainova, Yu. S., Fainshtein, V. G. & Rudenko, G. V., Geomagnetism and Aeronomy, 64, 1361

2022

1. Study of the Magnetic Properties of Sunspot Umbrae [6]
   Zagainova, Yu. S., Fainshtein, V. G., Obridko, V. N. & Rudenko, G. V., Astronomy Reports, 66, 116

2020

1. Studying Magnetic Field Variations Accompanying the 2011 June 7 Eruptive Event, by Using Nonlinear Force-Free Field Modeling [2]
   Egorov, Y. I., Fainshtein, V. G., Myshyakov, I. I., Anfinogentov, S. A. & Rudenko, G. V., Solar Physics, 295, 52
2. Magnetic Coupling of the Solar Hemispheres During the Solar Cycle [5]
   Obridko, V. N., Fainshtein, V. G., Zagainova, Y. S. & Rudenko, G. V., Solar Physics, 295, 149
3. Validity of Nonlinear Force-Free Field Optimization Reconstruction [2]
   Rudenko, G. V. & Dmitrienko, I. S., Solar Physics, 295, 85
4. Search for the Relationship between the Velocity of a Coronal Mass Ejection and the Decay Rate of the Magnetic Field in the Region of Mass Emission Generation [0]
   Zagainova, Yu. S., Fainshtein, V. G. & Rudenko, G. V., Geomagnetism and Aeronomy, 60, 1114

2018

1. Studying Magnetic Field Variations that Followed 7 June 20411 Eruptive Event, Using Nonlinear Force-Free Field Extrapolation [0]
   Egorov, Ya. I., Fainshtein, V. G., Myshyakov, I. I., Anfinogentov, S. A. & Rudenko, G. V., Solar-Terrestrial Physics - the Current State and Prospects, 2, p. 78
2. The presence of a systematic error in SDO/HMI data [1]
   Rudenko, Georgiy & Dmitrienko, Irina, Solar-Terrestrial Physics, 4, 3

2017

1. Variations of the Photospheric Magnetic Field Following the Eruptive Event on June 7, 2011 [3]
   Fainshtein, V. G., Egorov, Ya. I. & Rudenko, G. V., Geomagnetism and Aeronomy, 57, 906
2. Algorithms of the Potential Field Calculation in a Three-Dimensional Box [2]
   Rudenko, G. V. & Anfinogentov, S. A., Solar Physics, 292, 103
3. Comparison of the magnetic properties of leading and following spots and the overlying ultraviolet emission [3]
   Zagainova, Yu. S., Fainshtein, V. G., Obridko, V. N. & Rudenko, G. V., Astronomy Reports, 61, 533

2016

1. Structure of the magnetic field at altitudes of 1-1.15 solar radii [0]
   Akhtemov, Z. S., Stepanyan, N. N., Fainshtein, V. G. & Rudenko, G. V., Astronomy Reports, 60, 839
2. Oscillations of a vertically stratified dissipative atmosphere. I. Solution above source [2]
   Dmitrienko, I. S. & Rudenko, G. V., Journal of Atmospheric and Solar-Terrestrial Physics, 142, 120
3. Initial formation of an "impulsive" coronal mass ejection [6]
   Eselevich, V. G., Eselevich, M. V., Zimovets, I. V. & Rudenko, G. V., Astronomy Reports, 60, 1016
4. Magnetic field variations accompanying the filament eruption and the flare related to coronal mass ejections [4]
   Fainshtein, V. G., Egorov, Ya. I., Rudenko, G. V. & Anfinogentov, S. A., Geomagnetism and Aeronomy, 56, 1060
5. Evidence for a relationship between emerging magnetic fields, electric currents, and solar flares observed on May 10, 2012 [6]
   Livshits, M. A., Grigoryeva, I. Yu., Myshyakov, I. I. & Rudenko, G. V., Astronomy Reports, 60, 939
6. Oscillations of a vertically stratified dissipative atmosphere. II. Low frequency trapped modes [1]
   Rudenko, G. V. & Dmitrienko, I. S., Journal of Atmospheric and Solar-Terrestrial Physics, 142, 137
7. Penetration of internal gravity waveguide modes into the upper atmosphere [0]
   Rudenko, Georgiy & Dmitrienko, Irina, Solar-Terrestrial Physics, 2, 61
8. Magnetic field variations in the umbra of single sunspots during their passage across the solar disk [1]
   Zagainova, Iu. S., Fainshtein, V. G., Obridko, V. N. & Rudenko, G. V., Geomagnetism and Aeronomy, 56, 1015

2015

1. Variations over time in latitudinal distribution of the large-scale magnetic fields in the solar atmosphere at heights from the photosphere to the source surface [4]
   Akhtemov, Z. S., Andreyeva, O. A., Rudenko, G. V., Stepanian, N. N. & Fainshtein, V. G., Advances in Space Research, 55, 968
2. The magnetic virial theorem and the nature of flares on the Sun and other G stars [13]
   Livshits, M. A., Rudenko, G. V., Katsova, M. M. & Myshyakov, I. I., Advances in Space Research, 55, 920
3. A comparative analysis of the properties of the magnetic fields in leading and trailing sunspots [4]
   Zagainova, Yu. S., Fainshtein, V. G., Rudenko, G. V. & Obridko, V. N., Astronomy Reports, 59, 156
4. Boлнa нaд icToчнikon в Teплoпpoвoднoй aTnocфepe [0]
   Руденко, Георгий, Rudenko, Georgiy, Дмитриенко, Ирина & Dmitrienko, Irina, Solnechno-Zemnaya Fizika, 1, 11

2014

1. Temporal variations in the large-scale magnetic field of the solar atmosphere at heights from the photosphere to the source surface [1]
   Akhtemov, Z. S., Andreeva, O. A., Rudenko, G. V., Stepanian, N. N. & Fainstein, V. G., Bulletin Crimean Astrophysical Observatory, 110, 114
2. 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 [19]
   Grechnev, V. V., Uralov, A. M., Slemzin, V. A., Chertok, I. M., Filippov, B. P., Rudenko, G. V. & Temmer, M., Solar Physics, 289, 289
3. Very Fast and Accurate Azimuth Disambiguation of Vector Magnetograms [44]
   Rudenko, G. V. & Anfinogentov, S. A., Solar Physics, 289, 1499
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. Magnetic connections of solar formations inside magneto-isolated complexes based on observations of arch structures and calculations of magnetic field lines [1]
   Fainshtein, V. G., Malashchuk, V. M., Stepanian, N. N., Rudenko, G. V. & Egorov, Ya. I., Bulletin Crimean Astrophysical Observatory, 109, 104
2. The subsecond pulses during the August 10, 2011 flare by observations of RATAN-600 and the 4─8 GHz Siberian solar spectropolarimeter [3]
   Kashapova, L. K., Tokhchukova, S. Kh., Zhdanov, D. A., Bogod, V. M. & Rudenko, G. V., Geomagnetism and Aeronomy, 53, 1021
3. Imaging of the Solar Atmosphere by the Siberian Solar Radio Telescope at 5.7 GHz with an Enhanced Dynamic Range [23]
   Kochanov, Alexey A., Anfinogentov, Sergey A., Prosovetsky, Dmitry V., Rudenko, George V. & Grechnev, Victor V., Publications of the Astronomical Society of Japan, 65, S19
4. Height stratification and polar reversal of the Sun's magnetic fields in cycles 21─23 [1]
   Stepanyan, N. N., Akhtemov, Z. S., Fainshtein, V. G. & Rudenko, G. V., Geomagnetism and Aeronomy, 53, 957

2012

1. Spatial distribution of solar flares in 23rd solar cycle [0]
   Akhtemov, Z. S., Fainshtein, V. G., Stepanian, N. N. & Rudenko, G. V., Bulletin Crimean Astrophysical Observatory, 108, 4
2. 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
3. Magneto-isolated complexes of solar structures [2]
   Malashchuk, V. M., Fainshtein, V. G., Stepanian, N. N., Rudenko, G. V. & Egorov, Ya. I., Bulletin Crimean Astrophysical Observatory, 108, 70
4. Connection of coronal holes with active regions [1]
   Malashchuk, V. M., Fainshtein, V. G., Stepanyan, N. N. & Rudenko, G. V., Bulletin Crimean Astrophysical Observatory, 108, 64

2011

1. Height stratification of solar magnetic fields in cycle 23 [6]
   Fainshtein, V. G., Stepanian, N. N., Akhtemov, Z. S., Rudenko, G. V. & Silakova, E. V., Bulletin Crimean Astrophysical Observatory, 107, 51
2. Relationship between coronal holes and boundaries of structures of the large-scale magnetic fields [1]
   Malashchuk, V. M., Rudenko, G. V., Stepanian, N. N. & Fainshtein, V. G., Bulletin Crimean Astrophysical Observatory, 107, 60
3. Sunspots and large-scale magnetic fields at various heights [1]
   Perebeinos, V. A., Stepanian, N. N., Fainshtein, V. G. & Rudenko, G. V., Bulletin Crimean Astrophysical Observatory, 107, 43
4. Gauge-Invariant Helicity for Force-Free Magnetic Fields in a Rectangular Box [22]
   Rudenko, G. V. & Myshyakov, I. I., Solar Physics, 270, 165