Publications of Y. I. Egorov

A list of publications authored or co-authored by Y. I. Egorov, 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: 0000-0003-3993-1083

List of publications ordered by citations
Number of papers: 15 (refereed: 15)
No. of citations: 94
First author papers: 4 (refereed: 4)

2025

1. Forecasting F10.7 and F30 indices using the variational mode decomposition algorithm and the deep-learning Time-series Dense Encoder Model [1]
   Egorov, Yaroslav, Acta Astronautica, 234, 455

2024

1. Velocity Oscillations in CME and Related Shock: A Comparative Analysis [0]
   Fainshtein, V. G. & Egorov, Y. I., Solar Physics, 299, 9

2021

1. A Simple Technique for Identifying the Propagation Direction of CMEs in 3D Space [2]
   Egorov, Y. I. & Fainshtein, V. G., Solar Physics, 296, 161
2. Finding Spots in a CME-Related Shock Where Physical Conditions Can Emerge Favoring Type II Radio Burst Generation on 2010 June 13 [1]
   Egorov, Y. I., Fainshtein, V. G. & Prosovetskiy, D. V., Solar Physics, 296, 58

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

2019

1. Onset of a CME-Related Shock Within the Large-Angle Spectrometric Coronagraph (LASCO) Field of View [6]
   Fainshtein, V. G. & Egorov, Y. I., Solar Physics, 294, 126

2018

1. Kinematics of CMEs and related shocks from LASCO data: Comparative analysis [1]
   Fainshtein, V. G., Egorov, Ya. I. & Zagainova, Yu. S., Journal of Atmospheric and Solar-Terrestrial Physics, 179, 538
2. Radial distributions of magnetic field strength in the solar corona as derived from data on fast halo CMEs [1]
   Fainshtein, Victor & Egorov, Yaroslav, 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

2016

1. 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
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. Characteristics of the motion of coronal mass ejections and related shocks depending on the heliocentric distance [1]
   Fainshtein, V. G. & Egorov, Ya. I., Geomagnetism and Aeronomy, 55, 1165
2. Initiation of CMEs associated with filament eruption, and the nature of CME related shocks [15]
   Fainshtein, V. G. & Egorov, Ya. I., Advances in Space Research, 55, 798

2014

1. 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

2013

1. Investigation of CME properties using the data of SDO and PROBA2 spacecraft [5]
   Fainshtein, V. G. & Egorov, Ya. I., Cosmic Research, 51, 1