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A. P. Snodin
Researcher at King Mongkut's University of Technology North Bangkok
Publications - 44
Citations - 1890
A. P. Snodin is an academic researcher from King Mongkut's University of Technology North Bangkok. The author has contributed to research in topics: Magnetic field & Random walk. The author has an hindex of 22, co-authored 39 publications receiving 1689 citations. Previous affiliations of A. P. Snodin include Mahidol University & University of Newcastle.
Papers
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Journal ArticleDOI
The nonlinear gyro-kinetic flux tube code GKW
A. G. Peeters,Yann Camenen,F. J. Casson,William Hornsby,A. P. Snodin,D. Strintzi,Gabor Szepesi +6 more
TL;DR: A new nonlinear gyro-kinetic flux tube code (GKW) for the simulation of micro instabilities and turbulence in magnetic confinement plasmas is presented in this paper, which incorporates all physics effects that can be expected from a state of the art gyro -kinetic simulation code in the local limit.
Journal ArticleDOI
Magnetic fields in barred galaxies - IV. NGC 1097 and NGC 1365
Rainer Beck,Andrew Fletcher,Andrew Fletcher,Anvar Shukurov,A. P. Snodin,Dmitry Sokoloff,Matthias Ehle,David Moss,V. Shoutenkov +8 more
TL;DR: In this article, the authors presented λ3.5 cm and A6.2 cm radio continuum maps in total and polarized intensity of the barred galaxies NGC 1097 (at 2-15 resolution) and NGC 1365 (at 9-25 resolution).
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Overview of toroidal momentum transport
A. G. Peeters,C. Angioni,Alessandro Bortolon,Yann Camenen,F. J. Casson,B.P. Duval,L. Fiederspiel,William Hornsby,Yasuhiro Idomura,T. Hein,N. Kluy,P. Mantica,Felix I. Parra,A. P. Snodin,Gabor Szepesi,D. Strintzi,Tuomas Tala,G. Tardini,P. de Vries,Jan Weiland +19 more
TL;DR: Toroidal momentum transport mechanisms are reviewed and put in a broader perspective in this article, showing that the generation of a finite momentum flux is closely related to the breaking of symmetry (parity) along the field.
Journal ArticleDOI
Transport of Parallel Momentum Induced by Current-Symmetry Breaking in Toroidal Plasmas
TL;DR: In toroidal plasmas, the symmetry along a magnetic field line usually constrains the radial flux of parallel momentum to zero in the absence of background flows but by breaking the up-down symmetry of the toroidal currents this constraint can be relaxed.
Journal ArticleDOI
Impact of the background toroidal rotation on particle and heat turbulent transport in tokamak plasmas
TL;DR: Peeters et al. as mentioned in this paper showed that the Coriolis drift and the parallel dynamics play a similar role in the coupling of density, temperature, and velocity perturbations in toroidal momentum transport.