RT Journal Article ID 12b0b96666f5cc9d A1 Martin, P. A1 Buffa, A. A1 Franz, P. A1 Marrelli, L. A1 Murari, A. A1 Pasqualotto, R. T1 Dynamo and Relaxation in the Reversed Field Pinch JF Telecommunications and Radio Engineering JO TRE YR 2000 FD 2000-04-01 VO 54 IS 4 SP 26 OP 39 AB One of the most distinguishing features of the Reverse Field Pinch (RFP) magnetic configuration for the confinement of thermonuclear plasmas is that the experimental equilibrium is a self-organizing quasi-minimum energy state which stays very close to the fully relaxed Taylor state [Taylor, 74]. Its dynamics around this state is governed by a magnetic field regeneration mechanism similar to some extent to the dynamo naturally occurring in other physical systems. This mechanism is driven by the non-linear interaction of global, low-m resistive magnetohydrodynamic (MHD) modes resonant inside the toroidal field reversal surface. Since the outcome of this non-linear process are coherent velocity and magnetic field fluctuations, which combine to produce the dynamo electric field, energy transport in the RFP core is driven by magnetic fluctuations. PB Begell House LK https://www.dl.begellhouse.com/journals/0632a9d54950b268,6dd4e846324f80bd,12b0b96666f5cc9d.html