First-authored, refereed papers of Marek Vandas

A list of first-authored, refereed publications of Marek Vandas, 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: 0000-0001-9212-2133

List of publications ordered by citations
Number of papers: 44
No. of citations: 823

2024

  1. Magnetic Field in the Earth's Magnetosheath: Models Versus Observations [1]
    Vandas, M. & Romashets, E., Journal of Geophysical Research (Space Physics), 129, e2023JA032393
  2. Flux Calibration of Coronal Magnetic Field [0]
    Vandas, Marek & Romashets, Evgeny, Solar Physics, 299, 119

2020

  1. Comparison of Observed and Modeled Magnetic Fields in the Earth's Magnetosheath [6]
    Vandas, M., Němeček, Z., Å afránková, J., Romashets, E. P. & Hajoš, M., Journal of Geophysical Research (Space Physics), 125, e27705

2019

  1. Modeling of magnetic field in the magnetosheath using elliptic coordinates [3]
    Vandas, M. & Romashets, E. P., Planetary and Space Science, 178, 104692
  2. Interplanetary flux ropes of any twist distribution [5]
    Vandas, M. & Romashets, E. P., A&A, 627, A90

2017

  1. Toroidal Flux Ropes with Elliptical Cross Sections and Their Magnetic Helicity [10]
    Vandas, M. & Romashets, E., Solar Physics, 292, 129
  2. Magnetic cloud fit by uniform-twist toroidal flux ropes [21]
    Vandas, M. & Romashets, E., A&A, 608, A118

2016

  1. Shock-drift accelerated electrons and n-distribution [1]
    Vandas, M. & Karlický, M., A&A, 591, A127
  2. Toroidal linear force-free magnetic fields with axial symmetry [2]
    Vandas, M. & Romashets, E., A&A, 585, A108
  3. Euler potentials for two layers with non-constant current densities in the ambient magnetic field aligned to the layers [2]
    Vandas, Marek & Romashets, Eugene P., Annales Geophysicae, 34, 1165

2015

  1. Modeling of magnetic cloud expansion [13]
    Vandas, M., Romashets, E. & Geranios, A., A&A, 583, A78
  2. Comparative study of a constant-alpha force-free field and its approximations in an ideal toroid [13]
    Vandas, M. & Romashets, E., A&A, 580, A123
  3. Linear dispersion properties of ring velocity distribution functions [15]
    Vandas, Marek & Hellinger, Petr, Physics of Plasmas, 22, 062107

2014

  1. Euler potentials for two current sheets of nonzero thickness along ambient uniform magnetic field [6]
    Vandas, M. I. & Romashets, E. P., Journal of Geophysical Research (Space Physics), 119, 2579

2013

  1. Dynamics of a toroidal magnetic cloud: A semi-analytic approach [1]
    Vandas, M. & Romashets, E. P., Solar Wind 13 (Editors: Zank, Gary P., Borovsky, Joe, Bruno, Roberto, Cirtain, Jonathan, Cranmer, Steve, Elliott, Heather, Giacalone, Joe, Gonzalez, Walter, Li, Gang, Marsch, Eckart, Moebius, Ebehard, Pogorelov, Nick, Spann, Jim & Verkhoglyadova, Olga), American Institute of Physics Conference Series, 1539, p. 287
  2. Magnetic field disturbance in front of a super-sonic toroidal magnetic cloud [0]
    Vandas, M. & Romashets, E. P., Solar Wind 13 (Editors: Zank, Gary P., Borovsky, Joe, Bruno, Roberto, Cirtain, Jonathan, Cranmer, Steve, Elliott, Heather, Giacalone, Joe, Gonzalez, Walter, Li, Gang, Marsch, Eckart, Moebius, Ebehard, Pogorelov, Nick, Spann, Jim & Verkhoglyadova, Olga), American Institute of Physics Conference Series, 1539, p. 283

2011

  1. Electron acceleration in a wavy shock front [15]
    Vandas, M. & Karlický, M., A&A, 531, A55

2010

  1. How do fits of simulated magnetic clouds correspond to their real shapes in 3-D? [8]
    Vandas, M., Romashets, E. & Geranios, A., Annales Geophysicae, 28, 1581
  2. Magnetic Clouds Fitted by a Constant-Alpha Force-Free Toroidal Solution [1]
    Vandas, M. & Romashets, E. P., Twelfth International Solar Wind Conference (Editors: Maksimovic, M., Issautier, K., Meyer-Vernet, N., Moncuquet, M. & Pantellini, F.), American Institute of Physics Conference Series, 1216, p. 403
  3. Modeling of Magnetic Field Disturbances in Sheath Region of Interplanetary Magnetic Clouds of Elliptical Shapes [0]
    Vandas, M. & Romashets, E. P., Twelfth International Solar Wind Conference (Editors: Maksimovic, M., Issautier, K., Meyer-Vernet, N., Moncuquet, M. & Pantellini, F.), American Institute of Physics Conference Series, 1216, p. 399

2006

  1. Comparison of force-free flux rope models with observations of magnetic clouds [26]
    Vandas, M., Romashets, E. P., Watari, S., Geranios, A., Antoniadou, E. & Zacharopoulou, O., Advances in Space Research, 38, 441

2005

  1. Magnetic clouds of oblate shapes [29]
    Vandas, M., Romashets, E. & Watari, S., Planetary and Space Science, 53, 19

2004

  1. Acceleration of electrons by interacting CMEs [14]
    Vandas, M. & Odstrcil, D., A&A, 415, 755

2003

  1. Potential magnetic fields around flux ropes [5]
    Vandas, M., Romashets, E. P. & Watari, S., A&A, 412, 281
  2. A force-free field with constant alpha in an oblate cylinder: A generalization of the Lundquist solution [68]
    Vandas, M. & Romashets, E. P., A&A, 398, 801

2002

  1. Three-dimensional MHD simulation of a loop-like magnetic cloud in the solar wind [72]
    Vandas, M., OdstrčIl, D. & Watari, S., Journal of Geophysical Research (Space Physics), 107, 1236

2001

  1. Shock drift acceleration of electrons: A parametric study [22]
    Vandas, M., Journal of Geophysical Research, 106, 1859
  2. November 17-18, 1975, event: A clue to an internal structure of magnetic clouds? [11]
    Vandas, M. & Geranios, A., Journal of Geophysical Research, 106, 1849

2000

  1. Shock Drift Electron Acceleration in a Wavy Shock Front [16]
    Vandas, M. & Karlický, M., Solar Physics, 197, 85
  2. Magnetic cloud evolution: A comparison of analytical and numerical solutions [12]
    Vandas, M. & Odstrčil, D., Journal of Geophysical Research, 105, 12605

1998

  1. Propagation of a spheromak 2. Three-dimensional structure of a spheromak [21]
    Vandas, M., Fischer, S., Dryer, M., Smith, Z. & Detman, T., Journal of Geophysical Research, 103, 23717

1997

  1. Propagation of a spheromak 1. Some comparisons of cylindrical and spherical magnetic clouds [30]
    Vandas, M., Fischer, S., Pelant, P., Dryer, M., Smith, Z. & Detman, T., Journal of Geophysical Research, 102, 24183
  2. MHD simulation of an interaction of a shock wave with a magnetic cloud [53]
    Vandas, M., Fischer, S., Dryer, M., Smith, Z., Detman, T. & Geranios, A., Journal of Geophysical Research, 102, 22295

1996

  1. Magnetic traps in the interplanetary medium associated with magnetic clouds [10]
    Vandas, M., Fischer, S., Geranios, A., Dryer, M., Smith, Z. & Detman, T., Journal of Geophysical Research, 101, 21589
  2. Parametric study of loop-like magnetic cloud propagation [36]
    Vandas, M., Fischer, S., Dryer, M., Smith, Z. & Detman, T., Journal of Geophysical Research, 101, 15645
  3. Simulation of magnetic cloud propagation in the inner heliosphere in two dimensions 2. A loop parallel to the ecliptic plane and the role of helicity [56]
    Vandas, M., Fischer, S., Dryer, M., Smith, Z. & Detman, T., Journal of Geophysical Research, 101, 2505

1995

  1. On energetic particle flux variations inside a magnetic cloud [3]
    Vandas, M., Fischer, S. & Geranios, A., Journal of Geophysical Research, 100, 23507
  2. Acceleration of electrons by a nearly perpendicular curved shock wave. 2. Nonzero shock thickness [9]
    Vandas, M., Journal of Geophysical Research, 100, 23499
  3. Acceleration of electrons by a nearly perpendicular curved shock wave. 1. Zero shock thickness [6]
    Vandas, M., Journal of Geophysical Research, 100, 21613
  4. Simulation of magnetic cloud propagation in the inner heliosphere in two-dimensions. 1. A loop perpendicular to the ecliptic plane [66]
    Vandas, M., Fischer, S., Dryer, M., Smith, Z. & Detman, T., Journal of Geophysical Research, 100, 12285

1994

  1. Acceleration of Electrons at a Curved Shock [5]
    Vandas, M., ApJS, 90, 583

1993

  1. Evidence for a spheroidal structure of magnetic clouds [36]
    Vandas, M., Fischer, S., Pelant, P. & Geranios, A., Journal of Geophysical Research, 98, 21061
  2. Spheroidal models of magnetic clouds and their comparison with speacecraft measurements [55]
    Vandas, M., Fischer, S., Pelant, P. & Geranios, A., Journal of Geophysical Research, 98, 11467

1991

  1. Spherical and cylindrical models of magnetized plasma clouds and their comparison with spacecraft data [39]
    Vandas, M., Fischer, S. & Geranios, A., Planetary and Space Science, 39, 1147

Created on Wed Apr 8 04:40:47 2026.