Parallel expansion of density bursts

G. Chiavassa; H. Bufferand; G. Ciraolo; Ph Ghendrih; H. Guillard; L. Isoardi; A. Paredes; F. Schwander; E. Serre; P. Tamain

doi:10.1016/j.jnucmat.2010.10.086

Parallel expansion of density bursts

G. Chiavassa, H. Bufferand, G. Ciraolo, Ph Ghendrih, H. Guillard, L. Isoardi, A. Paredes, F. Schwander, E. Serre, P. Tamain

Resultado de la investigación: Contribución a una revista › Artículo › revisión exhaustiva

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Resumen

Evidence of poloidally localized cross-field transport in experiments and theoretical analysis of turbulence transport governs the onset of parallel transport towards equilibrium. When cross-field transport appears in bursts, both for ELM relaxation events and microturbulence, the parallel transport of particles is shown to generate fronts that propagate with supersonic velocities. It is shown that after a short transient the density structure is no longer monotonic and that the two fronts (one co, the other counter the magnetic field) are independent. Furthermore, the time trace of the particle flux at a given location is characterized by a sharp rise followed by a longer time scale relaxation. Comparing the time delay and magnitude of the density burst at two locations allows to estimate the magnitude and the location of the generation of the front.

Idioma original	Inglés
Páginas (desde-hasta)	S613-S616
Publicación	Journal of Nuclear Materials
Volumen	415
N.º	1 SUPPL
DOI	https://doi.org/10.1016/j.jnucmat.2010.10.086
Estado	Publicada - 1 ago. 2011
Publicado de forma externa	Sí

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title = "Parallel expansion of density bursts",

abstract = "Evidence of poloidally localized cross-field transport in experiments and theoretical analysis of turbulence transport governs the onset of parallel transport towards equilibrium. When cross-field transport appears in bursts, both for ELM relaxation events and microturbulence, the parallel transport of particles is shown to generate fronts that propagate with supersonic velocities. It is shown that after a short transient the density structure is no longer monotonic and that the two fronts (one co, the other counter the magnetic field) are independent. Furthermore, the time trace of the particle flux at a given location is characterized by a sharp rise followed by a longer time scale relaxation. Comparing the time delay and magnitude of the density burst at two locations allows to estimate the magnitude and the location of the generation of the front.",

author = "G. Chiavassa and H. Bufferand and G. Ciraolo and Ph Ghendrih and H. Guillard and L. Isoardi and A. Paredes and F. Schwander and E. Serre and P. Tamain",

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T1 - Parallel expansion of density bursts

AU - Chiavassa, G.

AU - Bufferand, H.

AU - Ciraolo, G.

AU - Ghendrih, Ph

AU - Guillard, H.

AU - Isoardi, L.

AU - Paredes, A.

AU - Schwander, F.

AU - Serre, E.

AU - Tamain, P.

N1 - Funding Information: This work has been supported by the ANR ESPOIR (ANR09-0035-01).

PY - 2011/8/1

Y1 - 2011/8/1

N2 - Evidence of poloidally localized cross-field transport in experiments and theoretical analysis of turbulence transport governs the onset of parallel transport towards equilibrium. When cross-field transport appears in bursts, both for ELM relaxation events and microturbulence, the parallel transport of particles is shown to generate fronts that propagate with supersonic velocities. It is shown that after a short transient the density structure is no longer monotonic and that the two fronts (one co, the other counter the magnetic field) are independent. Furthermore, the time trace of the particle flux at a given location is characterized by a sharp rise followed by a longer time scale relaxation. Comparing the time delay and magnitude of the density burst at two locations allows to estimate the magnitude and the location of the generation of the front.

AB - Evidence of poloidally localized cross-field transport in experiments and theoretical analysis of turbulence transport governs the onset of parallel transport towards equilibrium. When cross-field transport appears in bursts, both for ELM relaxation events and microturbulence, the parallel transport of particles is shown to generate fronts that propagate with supersonic velocities. It is shown that after a short transient the density structure is no longer monotonic and that the two fronts (one co, the other counter the magnetic field) are independent. Furthermore, the time trace of the particle flux at a given location is characterized by a sharp rise followed by a longer time scale relaxation. Comparing the time delay and magnitude of the density burst at two locations allows to estimate the magnitude and the location of the generation of the front.

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SN - 0022-3115

VL - 415

SP - S613-S616

JO - Journal of Nuclear Materials

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Parallel expansion of density bursts

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