In this paper, a relaxation theory for plasmas where a single dominant mode is present [Bhattacharjee et al., Phys. Rev. Lett. 45, 347 (1980)], is revisited. The solutions of a related eigenvalue problem are numerically calculated and discussed. Although these solutions can reproduce well, the magnetic fields measured in experiments, there is no way within the theory to determine the dominant mode, whose pitch is a free parameter in the model. To find the preferred helical perturbation, a procedure is proposed that minimizes the “distance” of the relaxed state from a state which is constructed as a two region generalization of the Taylor's relaxation model [Taylor, Phys. Rev. Lett. 33, 1139 (1974); Rev. Mod. Phys. 58, 751 (1986)] and that allows current discontinuities. It is found that this comparison is able to predict the observed scaling with the aspect ratio and reversal parameter for the dominant mode in the Single Helical states. The aspect ratio scaling alone is discussed in a previous paper [Paccagnella, Nucl. Fusion 56, 046010 (2016)] in terms of the efficient response of a toroidal shell to specific modes (leaving a sign undetermined), showing that the ideal wall boundary condition, a key ingredient in relaxation theories, is particularly well matched for them. Therefore, the present paper altogether [Paccagnella, Nucl. Fusion 56, 046010 (2016)] can give a new and satisfactory explanation of some robust and reproducible experimental facts observed in the Single Helical Reversed Field Pinch plasmas and never explained before.
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September 2016
Research Article|
September 29 2016
Relaxation models for single helical reversed field pinch plasmas
Roberto Paccagnella
Roberto Paccagnella
Consorzio RFX
, Corso Stati Uniti 4, 35127 Padova, Italy
and Istituto Gas Ionizzati del CNR, Padova, Italy
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Phys. Plasmas 23, 092512 (2016)
Article history
Received:
July 11 2016
Accepted:
September 08 2016
Citation
Roberto Paccagnella; Relaxation models for single helical reversed field pinch plasmas. Phys. Plasmas 1 September 2016; 23 (9): 092512. https://doi.org/10.1063/1.4963677
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