1986
DOI: 10.1070/pu1986v029n04abeh003308
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Present state of the theory of the MHD equilibrium and stability of stellarator plasmas

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Cited by 19 publications
(34 citation statements)
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“…[6] has been observed in various stellarator experiments [7,8,9,10]. In these results, geometrical deformations associated with the Shafranov shift result in configurations which are stable with respect to Mercier modes as pressure is increased.…”
Section: Introductionsupporting
confidence: 56%
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“…[6] has been observed in various stellarator experiments [7,8,9,10]. In these results, geometrical deformations associated with the Shafranov shift result in configurations which are stable with respect to Mercier modes as pressure is increased.…”
Section: Introductionsupporting
confidence: 56%
“…The identities eqn (4,5,6) are useful for examining the numerical accuracy of both the original equilibrium and the transformation to Boozer coordinates.…”
Section: Numerical Implementationmentioning
confidence: 99%
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“…The MHD equilibrium and plasma stability in this configuration are well understood. The vacuum magnetic configura tion has a magnetic hill; however, in the presence of plasma, a magnetic well forms in the plasma core due to plasma self stabilization [15]. In this case, ideal interchange MHD modes in the plasma core are stabi lized by the magnetic well, whereas closer to the plasma edge, they are stabilized by the shear.…”
Section: Experimental Setup and Summarymentioning
confidence: 99%
“…The present experiments were carried out in low-beta plasmas β(r s /r = 0) ≈ 0.2%, where stability calculations show that ideal MHD modes are stable †. The stability criteria for pressure-driven-resistive MHD modes with poloidal number m 1 and for small beta values is given by (Kovrizhnykh and Shchepetov 1981)…”
Section: Discussionmentioning
confidence: 99%