Bifurcated equilibria in two-dimensional MHD with diamagnetic effects

C. TEBALDI; M. OTTAVIANI

doi:10.1017/S0022377899008120

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

In this work, we analyse the sequence of bifurcated equilibria in two-dimensional reduced magnetohydrodynamics. Diamagnetic effects are studied under the assumption of a constant equilibrium pressure gradient, not altered by the formation of a magnetic island. The formation of an island when the symmetric equilibrium becomes unstable is studied as a function of the tearing-mode stability parameter Δ′ and of the diamagnetic frequency, by employing fixed-point numerical technique and an initial-value code. At larger values of Δ′, a tangent bifurcation takes place, above which no small-island solutions exist. This bifurcation persists up to fairly large values of the diamagnetic frequency (of the order of one-tenth of the Alfvén frequency). The implications of this phenomenology for the intermittent MHD dynamics observed in tokamaks is discussed.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Martin, P. Buffa, A. Cappello, S. D’Angelo, F. Escande, D. F. Franz, P. Marrelli, L. Martines, E. Ortolani, S. Spizzo, G. Bilato, R. Bolzonella, T. Costa, S. Murari, A. Paccagnella, R. Pasqualotto, R. Terranova, D. and Zanca, P. 2000. Quasi-single helicity states in the reversed field pinch: Beyond the standard paradigm. Physics of Plasmas, Vol. 7, Issue. 5, p. 1984.

Escande, D F Cappello, S D'Angelo, F Martin, P Ortolani, S and Paccagnella, R 2000. Single helicity: a new paradigm for the reversed field pinch. Plasma Physics and Controlled Fusion, Vol. 42, Issue. 12B, p. B243.

Escande, D. F. Martin, P. Ortolani, S. Buffa, A. Franz, P. Marrelli, L. Martines, E. Spizzo, G. Cappello, S. Murari, A. Pasqualotto, R. and Zanca, P. 2000. Quasi-Single-Helicity Reversed-Field-Pinch Plasmas. Physical Review Letters, Vol. 85, Issue. 8, p. 1662.

Cappello, S. and Escande, D. F. 2000. Bifurcation in Viscoresistive MHD: The Hartmann Number and the Reversed Field Pinch. Physical Review Letters, Vol. 85, Issue. 18, p. 3838.

Martin, P Martini, S Antoni, V Apolloni, L Bagatin, M Baker, W Barana, O Bartiromo, R Bettini, P Boboc, A Bolzonella, T Buffa, A Canton, A Cappello, S Carraro, L Cavazzana, R Chitarin, G Costa, S D'Angelo, F Bello, S. Dal Lorenzi, A. De Desideri, D Escande, D Fattorini, L Fiorentin, P Franz, P Gaio, E Garzotti, L Giudicotti, L Gnesotto, F Grando, L Guo, S.C Innoccente, P Intravaia, A Lorenzini, R Luchetta, A Malesani, G Manduchi, G Marchiori, G Marrelli, L Martines, E Maschio, A Masiello, A Milani, F Moresco, M Murari, A Nielsen, P O'Gorman, M Ortolani, S Paccagnella, R Pasqualotto, R Pégourié, B Peruzzo, S Piovan, R Pomaro, N Ponno, A Preti, G Puiatti, M.E Rostagni, G Sattin, F Scarin, P Serianni, G Sonato, P Spada, E Spizzo, G Spolaore, M Taliercio, C Telesca, G Terranova, D Toigo, V Tramontin, L Valisa, M Vianello, N Viterbo, M Zabeo, L Zaccaria, P Zanca, P Zaniol, B Zanotto, L Zilli, E and Zollino, G 2002. New insights into MHD dynamics of magnetically confined plasmas from experiments in RFX. Nuclear Fusion, Vol. 42, Issue. 3, p. 247.

Escande, D.F. and Ottaviani, M. 2004. Simple and rigorous solution for the nonlinear tearing mode. Physics Letters A, Vol. 323, Issue. 3-4, p. 278.

Arcis, N. Escande, D. F. and Ottaviani, M. 2006. Rigorous approach to the nonlinear saturation of the tearing mode in cylindrical and slab geometry. Physics of Plasmas, Vol. 13, Issue. 5,

Grasso, D Margheriti, L Porcelli, F and Tebaldi, C 2006. Magnetic islands and spontaneous generation of zonal flows. Plasma Physics and Controlled Fusion, Vol. 48, Issue. 9, p. L87.

Grasso, D. Hastie, R. J. Porcelli, F. and Tebaldi, C. 2008. Critical Δ′ for stability of viscoresistive tearing modes. Physics of Plasmas, Vol. 15, Issue. 7,

Article contents

Bifurcated equilibria in two-dimensional MHD with diamagnetic effects

Abstract

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests