Kinematics and Physics of Celestial Bodies

Papers
(The TQCC of Kinematics and Physics of Celestial Bodies is 2. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-03-01 to 2024-03-01.)
ArticleCitations
Parameters of the Infrasonic Signal Generated by the Kamchatka Meteoroid10
Geomagnetic Variations Caused by the Lipetsk Meteoroid’s Passage and Explosion: Measurement Results8
Two-Frequency Propagation Mode of Acoustic−Gravity Waves in the Earth’s Atmosphere7
Physical Effects of the Yushu Meteoroid: 27
Physical Effects of the Yushu Meteoroid: 17
Physical Effects of the Yushu Meteoroid: 36
Features of the Ionospheric Storm on December 21–24, 20166
Prediction of Solar Cycle 25: Maximum in the N- and S-Hemispheres6
Ludwig von Struve (1858–1920): Development of Positional Astronomy at the Kharkiv Astronomical Observatory5
Ionospheric Processes during the Partial Solar Eclipse above Kharkiv on June 10, 20215
Ionospheric Effects of the August 11, 2018, Solar Eclipse over the People’s Republic of China5
Convection Effect in the Surface Atmosphere of Solar Eclipses of March 20, 2015, and June 10, 20215
Asymmetry of Lines in the Spectra of the Sun and Solar-Type Stars5
Characteristics of Infrasonic Signals Generated by the Lipetsk Meteoroid: Statistical Analysis5
Compact Galaxies with Active Star Formation from the SDSS DR14: Star-Formation Rates Derived from Combinations of Luminosities in Different Wavelength Ranges5
The Influence of the Earth’s Atmosphere Rotation on the Spectrum of Acoustic-Gravity Waves4
Ionospheric Effects of the June 10, 2021, Solar Eclipse in the Arctic4
Influence of Vertical Heterogeneity of Atmospheric Temperature on the Propagation of Acoustic-Gravity Waves4
Thermal Effect in Surface Atmosphere of the Solar Eclipse on June 10, 20214
History of Sunspot Research and Forecast of the Maximum of Solar Cycle 254
Dynamic Falling of the Chelyabinsk Meteoroid: Sizes, Radiation, and Destruction4
Observation of Stellar Occultations by Asteroid (259) Alethea and Comet 21P/Jacobini−Zinner4
Kamchatka Meteoroid Effects in the Geomagnetic Field4
Mykola Evdokymov (1868–1941): Founder of Astrometric Research at Kharkiv Astronomical Observatory3
Statistical Characteristics of Geomagnetic Storms in the 24th Cycle of Solar Activity3
Generation of the Sun’s Radial Magnetic Field by Global Hydrodynamic Flows3
Attenuation of Acoustic-Gravity Waves in an Isothermal Atmosphere: Consideration with the Modified Navier-Stokes and Heat-Transfer Equations3
Geomagnetic Effect of the Solar Eclipse of June 10, 20213
Development of Firehose Instability of a Magnetosonic Type in the Presence of High-Speed Proton Beams2
Morphology of the Flare-Productive Active Region NOAA 90872
Two-Frequency Acoustic-Gravitational Waves and Simulation of Satellite Measurements2
Physical Effects in the Atmosphere and Geospace due to Ground-Based Events as Exemplified by the Explosion in the City of Beirut on August 4, 2020. Theoretical Modeling Results2
Physical Effects from the Kyiv Meteoroid: 22
Variations in the Mid-Latitude Ionosphere Parameters over Ukraine during the Very Moderate Magnetic Storm on December 18, 20192
Statistical Analysis of the Probability of Interaction of Globular Clusters with Each Other and with the Galactic Center on the Cosmological Time Scale According to Gaia DR2 Data2
The Second Reprocessing Campaign of Historical Observations in the GNSS Data Analysis Centre of MAO NAS of Ukraine2
On the Altitude Dependence of the Aerosol Volume Scattering Coefficient in Saturn’s Atmosphere. II. Latitudinal Belts of the Northern Hemisphere2
Identification of Acoustic-Gravity Waves According to the Satellite Measurement Data2
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