Theoretical astrophysics and plasma physics at RPC

Linearized model Fokker–Planck collision operators for gyrokinetic simulations. I. Theory

Physics of Plasmas AIP Publishing 15:12 (2008) 122509

Authors:

IG Abel, M Barnes, SC Cowley, W Dorland, AA Schekochihin

Nonlinear phase mixing and phase-space cascade of entropy in gyrokinetic plasma turbulence

(2008)

Authors:

T Tatsuno, W Dorland, AA Schekochihin, GG Plunk, M Barnes, SC Cowley, GG Howes

The flattening and the orbital structure of early-type galaxies and collisionless N-body binary disk mergers

(2008)

Authors:

J Thomas, R Jesseit, RP Saglia, R Bender, A Burkert, EM Corsini, K Gebhardt, J Magorrian, T Naab, D Thomas, G Wegner

Identifying Decaying Supermassive Black Hole Binaries from their Variable Electromagnetic Emission

(2008)

Authors:

Zoltán Haiman, Bence Kocsis, Kristen Menou, Zoltán Lippai, Zsolt Frei

Electrostatic turbulence in tokamaks on transport time scales

Plasma Physics and Controlled Fusion 50:11 (2008)

Authors:

PJ Catto, AN Simakov, FI Parra, G Kagan

Abstract:

Simulating electrostatic turbulence in tokamaks on transport time scales requires retaining and evolving a complete turbulence modified neoclassical transport description, including all the axisymmetric neoclassical and zonal flow radial electric field effects, as well as the turbulent transport normally associated with drift instabilities. Neoclassical electric field effects are particularly difficult to retain since they require evaluating the ion distribution function to higher order in gyroradius over background scale length than standard gyrokinetic treatments. To avoid extending gyrokinetics an alternate hybrid gyrokinetic-fluid treatment is formulated that employs moments of the full Fokker-Planck kinetic equation to remove the need for a higher order gyrokinetic distribution function. The resulting hybrid description is able to model all electrostatic turbulence effects with wavelengths much longer than an electron Larmor radius such as the ion temperature gradient (ITG) and trapped electron modes (TEM). © 2008 IOP Publishing Ltd.