First-authored, refereed papers of V. N. Krivodubskij

A list of first-authored, refereed publications of V. N. Krivodubskij, 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: 0000-0001-7655-8121

List of publications ordered by citations
Number of papers: 18
No. of citations: 69

2025

  1. North-South Asymmetry of Sunspot Activity during the Maunder Minimum [0]
    Krivodubskij, V. N., Odessa Astronomical Publications, 38, 162

2024

  1. Macroscopic Turbulent Diamagnetism of Solar Plasma [0]
    Krivodubskij, V. N., Odessa Astronomical Publications, 37, 118

2023

  1. Theoretical and Observed Signs of Excitation of Small-Scale Magnetic Fluctuations in the Depth of the Sun [0]
    Krivodubskij, V. N. & Kondrashova, N. M., Kinematics and Physics of Celestial Bodies, 39, 342

2021

  1. Role of rotational radial magnetic advection in possible explaining a cycle with two peaks [3]
    Krivodubskij, V. N., Advances in Space Research, 68, 3943

2020

  1. The Role of Macroscopic Turbulent Diamagnetism in Ensuring Long-Term Stability of Sunspots [0]
    Krivodubskij, V. N., Odessa Astronomical Publications, 33, 85

2019

  1. On the Role of MHD Turbulence in the Decrease of Electrical Conductivity of Plasma in the Sun's Active Magnetic Region [1]
    Krivodubskij, V. N., Kinematics and Physics of Celestial Bodies, 35, 124
  2. On the role of MHD turbulence in the decrease of electric conductivity of plasma in the active magnetic area of the Sun [0]
    Krivodubskij, V. N., Kinematika i Fizika Nebesnykh Tel, 35, 34
  3. Generation of the toroidal magnetic field in the radiant zone of the Sun and alternation of the amplitude of the neighboring magnetic cycles [0]
    Krivodubskij, V. N., Astronomical School's Report, 15, 25

2018

  1. Convective overshoot and tachochlin are the most favorable the deep layers of the Sun to excite a toroidal magnetic field [0]
    Krivodubskij, V. N., Astronomical School's Report, 14, 62

2017

  1. Double maxima of 11-year solar cycles [6]
    Krivodubskij, V. N., Kinematics and Physics of Celestial Bodies, 33, 24
  2. Double maxima 11-year solar cycles [0]
    Krivodubskij, V. N., Kinematika i Fizika Nebesnykh Tel, 33, 55
  3. Sources of solar energy and interplanetary magnetic field [0]
    Krivodubskij, V. N., Astronomical School's Report, 13, 68

2015

  1. Small scale alpha-squared effect in the solar convection zone [9]
    Krivodubskij, V. N., Kinematics and Physics of Celestial Bodies, 31, 55

2013

  1. The role of the negative helical turbulent viscosity in the fragmentations of the magnetic fields on the Sun [0]
    Krivodubskij, V. N., Astronomical School's Report, 9, 28

2005

  1. Turbulent dynamo near tachocline and reconstruction of azimuthal magnetic field in the solar convection zone [47]
    Krivodubskij, V. N., Astronomische Nachrichten, 326, 61

2004

  1. Illintsi's astroblem is the ancientest one on the Ukrainian crystal shield [0]
    Krivodubskij, V. N., Solonenko, V. I. & Churiumov, K. I., Astronomical School's Report, 5, 23

1991

  1. The transfer of large-scale magnetic field by radial inhomogeneity of the material density in the rotating convection zone [2]
    Krivodubskij, V. N. & Kichatinov, L. L., IAU Colloquium 130: The Sun and Cool Stars. Activity, Magnetism, Dynamos (Editors: Tuominen, I., Moss, D. & Rüdiger, G.), p.190
  2. The Toroidal Magnetic Field Inside the Sun [1]
    Krivodubskij, V. N., Dudorov, A. E., Ruzmaikin, A. A. & Ruzmaikina, T. V., IAU Colloquium 130: The Sun and Cool Stars. Activity, Magnetism, Dynamos (Editors: Tuominen, I., Moss, D. & Rüdiger, G.), p.187

Created on Wed Apr 8 04:34:08 2026.