First-authored, refereed papers of D. Tsiklauri

A list of first-authored, refereed publications of D. Tsiklauri, 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: 0000-0001-9180-4773

List of publications ordered by citations
Number of papers: 48
No. of citations: 846

2025

  1. Interaction of a Spatially Uniform Electron Beam With a Rotational Magnetic Hole in a Form of a Harris Current Sheet [0]
    Tsiklauri, D., IEEE Transactions on Plasma Science, 53, 3486
  2. Two-Dimensional Modeling of the Interaction Between Electromagnetic Waves and Plasma–Metamaterial Composite Structures Using the Particle-in-Cell Method [0]
    Tsiklauri, D. & Morrison, I., IEEE Transactions on Plasma Science, 53, 1841

2024

  1. The Effect of External Magnetic Field on Electron Scale Kelvin─Helmholtz Instability [4]
    Tsiklauri, D., Research in Astronomy and Astrophysics, 24, 095021
  2. Particle acceleration by sub-proton cyclotron frequency spectrum of dispersive Alfven waves in inhomogeneous solar coronal plasmas [1]
    Tsiklauri, D., MNRAS, 527, 10822

2020

  1. The Effect of Particle Gas Composition and Boundary Conditions on Triboplasma Generation: A Computational Study Using the Particle-in-Cell Method [0]
    Tsiklauri, David, Karabasov, Sergey & Prodaevich, Vladimir Grigorievich, IEEE Transactions on Plasma Science, 48, 2475

2019

  1. New Regime of Plasma Wake-Field Acceleration in the Extreme Blowout Regime [3]
    Tsiklauri, David, IEEE Transactions on Plasma Science, 47, 324

2018

  1. Differences in 1D electron plasma wake field acceleration in MeV versus GeV and linear versus blowout regimes [2]
    Tsiklauri, David, Physics of Plasmas, 25, 032114

2017

  1. Electron plasma wake field acceleration in solar coronal and chromospheric plasmas [6]
    Tsiklauri, David, Physics of Plasmas, 24, 072902

2016

  1. Collisionless, phase-mixed, dispersive, Gaussian Alfven pulse in transversely inhomogeneous plasma [6]
    Tsiklauri, D., Physics of Plasmas, 23, 122906
  2. Alfvén wave phase-mixing in flows. Why over-dense, solar coronal, open magnetic field structures are cool [4]
    Tsiklauri, D., A&A, 586, A95
  3. The effect of a longitudinal density gradient on electron plasma wake field acceleration [6]
    Tsiklauri, David, Proceedings of the Royal Society of London Series A, 472, 20160630

2014

  1. Three dimensional magnetohydrodynamic simulation of linearly polarised Alfven wave dynamics in Arnold-Beltrami-Childress magnetic field [3]
    Tsiklauri, D., Physics of Plasmas, 21, 052902

2012

  1. Three dimensional particle-in-cell simulation of particle acceleration by circularly polarised inertial Alfven waves in a transversely inhomogeneous plasma [23]
    Tsiklauri, D., Physics of Plasmas, 19, 082903

2011

  1. Particle acceleration by circularly and elliptically polarised dispersive Alfven waves in a transversely inhomogeneous plasma in the inertial and kinetic regimes [27]
    Tsiklauri, D., Physics of Plasmas, 18, 092903
  2. Heating of solar chromosphere by electromagnetic wave absorption in a plasma slab model [4]
    Tsiklauri, D. & Pechhacker, R., Physics of Plasmas, 18, 042901
  3. Galaxy rotation curves: the effect of ěc{j} ×ěc{B} force [5]
    Tsiklauri, D., Astrophysics and Space Science, 334, 165
  4. An alternative to the plasma emission model: Particle-in-cell, self-consistent electromagnetic wave emission simulations of solar type III radio bursts [27]
    Tsiklauri, David, Physics of Plasmas, 18, 052903

2010

  1. Vlasov - Maxwell, Self-consistent Electromagnetic Wave Emission Simulations in the Solar Corona [8]
    Tsiklauri, David, Solar Physics, 267, 393

2008

  1. Physics of collisionless phase mixing [11]
    Tsiklauri, D. & Haruki, T., Physics of Plasmas, 15, 112902
  2. Physics of collisionless reconnection in a stressed X-point collapse [18]
    Tsiklauri, D. & Haruki, T., Physics of Plasmas, 15, 102902
  3. A new fast reconnection model in a collisionless regime [10]
    Tsiklauri, David, Physics of Plasmas, 15, 112903

2007

  1. Magnetic reconnection during collisionless, stressed, X-point collapse using particle-in-cell simulation [28]
    Tsiklauri, D. & Haruki, T., Physics of Plasmas, 14, 112905

2006

  1. A mechanism for parallel electric field generation in the MHD limit: possible implications for the coronal heating problem in the two stage mechanism [19]
    Tsiklauri, D., A&A, 455, 1073
  2. A fresh look at the heating mechanisms of the solar corona [8]
    Tsiklauri, David, New Journal of Physics, 8, 79

2005

  1. The Sun as a MHD generator: application of a new heating mechanism for the coronal loops and closed magnetic structures [7]
    Tsiklauri, D., A&A, 441, 1177
  2. Particle-In-Cell simulations of circularly polarised Alfvén wave phase mixing: A new mechanism for electron acceleration in collisionless plasmas [50]
    Tsiklauri, D., Sakai, J.-I. & Saito, S., A&A, 435, 1105
  3. Phase mixing of shear Alfvén waves as a new mechanism for electron acceleration in collisionless, kinetic plasmas [27]
    Tsiklauri, David, Sakai, Jun-Ichi & Saito, Shinji, New Journal of Physics, 7, 79

2004

  1. Flare-generated acoustic oscillations in solar and stellar coronal loops [67]
    Tsiklauri, D., Nakariakov, V. M., Arber, T. D. & Aschwanden, M. J., A&A, 422, 351
  2. Radiative hydrodynamic modeling of the Bastille-Day flare (14 July, 2000). I. Numerical simulations [23]
    Tsiklauri, D., Aschwanden, M. J., Nakariakov, V. M. & Arber, T. D., A&A, 419, 1149

2003

  1. Phase mixing of a three dimensional magnetohydrodynamic pulse [39]
    Tsiklauri, D., Nakariakov, V. M. & Rowlands, G., A&A, 400, 1051
  2. Properties of Elastic Waves in a Non-Newtonian (Maxwell) Fluid-Saturated Porous Medium [15]
    Tsiklauri, David & Beresnev, Igor, Transport in Porous Media, 53, 39

2002

  1. A strongly nonlinear Alfvénic pulse in a transversely inhomogeneous medium [36]
    Tsiklauri, D., Nakariakov, V. M. & Arber, T. D., A&A, 395, 285
  2. Phenomenological model of propagation of the elastic waves in a fluid-saturated porous solid with nonzero boundary slip velocity [13]
    Tsiklauri, David, Acoustical Society of America Journal, 112, 843

2001

  1. Wide-spectrum slow magnetoacoustic waves in coronal loops [65]
    Tsiklauri, D. & Nakariakov, V. M., A&A, 379, 1106
  2. A weakly nonlinear Alfvénic pulse in a transversely inhomogeneous medium [34]
    Tsiklauri, D., Arber, T. D. & Nakariakov, V. M., A&A, 379, 1098
  3. Non-Newtonian effects in the peristaltic flow of a Maxwell fluid [44]
    Tsiklauri, David & Beresnev, Igor, Physical Review E, 64, 036303
  4. Enhancement in the dynamic response of a viscoelastic fluid flowing through a longitudinally vibrating tube [45]
    Tsiklauri, David & Beresnev, Igor, Physical Review E, 63, 046304
  5. Component thermalization time-scale estimate for the advection dominated accretion flow around Sgr A [2]
    Tsiklauri, David, New Astronomy, 6, 487

2000

  1. Kinetic model of three-component, weakly ionized, collisional plasma with a beam of neutral particles [1]
    Tsiklauri, David, Physics of Plasmas, 7, 493
  2. On the gravitational stability of baryonic gas clouds in the background of dark matter [3]
    Tsiklauri, David, New Astronomy, 5, 361

1999

  1. Heavy neutrino ball as a possible solution to the ``blackness problem" of the Galactic center [20]
    Tsiklauri, David & Viollier, Raoul D., Astroparticle Physics, 12, 199

1998

  1. Jeans Instability of Interstellar Gas Clouds in the Background of Weakly Interacting Massive Particles [30]
    Tsiklauri, David, ApJ, 507, 226
  2. On the Formation of Dark Matter Balls Composed of Degenerate, Self-gravitating Neutrinos [9]
    Tsiklauri, David & Viollier, Raoul D., ApJ, 501, 486
  3. Dark Matter Concentration in the Galactic Center [71]
    Tsiklauri, David & Viollier, Raoul D., ApJ, 500, 591

1997

  1. Two-component radiation model of the sonoluminescing bubble [6]
    Tsiklauri, David, Physical Review E, 56, R6245

1996

  1. On the conical refraction of hydromagnetic waves in plasma with anisotropic thermal pressure: General consideration [0]
    Tsiklauri, David, Physics of Plasmas, 3, 3902
  2. On the conical refraction of hydromagnetic waves in plasma with anisotropic thermal pressure [3]
    Tsiklauri, David, Physics of Plasmas, 3, 800
  3. On possible signatures of heavy neutrino balls in active galactic nuclei [13]
    Tsiklauri, David & Viollier, Raoul D., MNRAS, 282, 1299

Created on Wed Apr 22 04:37:18 2026.