Secular perturbation theory is used to describe the hot electron motion in an inhomogeneous magnetic field. A group of precessional modes is investigated. A criterion for determining the stochastic instability is obtained. It is found that higher precessional frequencies have more stabilizing effects.
Abstract
Secular perturbation theory is used to describe the hot electron motion in an inhomogeneous magnetic field. A group of precessional modes is investigated. A criterion for determining the stochastic instability is obtained. It is found that higher precessional frequencies have more stabilizing effects.
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参考文献
[1] R.A.Dandl,H.O.Eason,P.H.Edmonds and A.C.England,Nuclear Fusion 11(1971)411.
[2] H.L.Berk,J.W.Van Dam,M.N.Rosenbluth and D.E.Spong,Phys.Fluids 25(1982)1349.
[3] T.M.Antonsen, and Y.C.Lee,Shenuood,Controlled Fusion Theory Conference, Santa Fe,New Mexico(April 1982)2E34.
[4] D.E.Baldwin and H.L.Berk,Phys.Fluids 26(1983)3595.
[5] M.N.Rosenbluth,Phys.Rev.Lett.46(1981)1525.
[6] V.I.Arnold,"Mathematical Methods in Classical Mechanics"(1968)p.376.
[7] A.B.Rechester and T.F.Stix,Phys.Rev.E(197911656.
[8] A.J.Lichtenberg and M.A.Lieberman,Regular and Stochastic Motion, Applied.Mathematical Science 38(1983).
[9] L.J.Laslett,In Focusing of Charged Particles,2(1967)355.
[10] Y.Gel1 and R,Nakach,"Proceedings of the IAEA Technical Committee Meeting on Non-Inductive Current Drive in Tokamaks",Culham(1983)p.202.
[11] A.J.Lichtenberg,EUR-CER-FC-1215(1983).
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