Your search keyword '"J. Koliner"' showing total 5 results

1. Overview of Results from the MST Reversed Field Pinch Experiment

Author

J. Sarff, A. Almagri, J. Anderson, F. Auriemma, M. Borchardt, B. Breizman, D. Brower, S. Cappello, W. Cappechi, D. Carmody, K. Caspary, B. Chapman, D. Craig, V. Davydenko, P. Deichuli, D. Demers, J. Duff, D. Den Hartog, W. Ding, S. Eilerman, A. Falkowski, P. Fimognari, C. Forest, P. Franz, M. Galante, J. Goetz, R. Harvey, D. Holly, P. Innocente, A. Ivanov, J. Koliner, S. Kumar, J. D. Lee, M. Li, L. Lin, D. Liu, R. Lorenzini, E. Martines, K. McCollam, M. McGarry, V. Mirnov, B. Momo, L. Morton, S. Munaretto, M. Nornberg, P. Nonn, S. Oliva, E. Parke, P. Piovesan, S. Polosatkin, M. J. Pueschel, M. E. Puiatti, J. Reusch, J. Sauppe, A. Seltzman, C. Sovinec, D. Spong, M. Spolaore, H. Stephens, N. Stupishin, D. Terranova, M. Thomas, J. Titus, J. Trianna, P. Terry, J. Waksman, G. Whelan, P. Zanca, and L. Zheng

Subjects

Physics::Plasma Physics

Abstract

This overview of results from the MST reversed field pinch program summarizes physics im- portant for the advancement of the RFP as well as for improved understanding of toroidal magnetic confinement in general. Topics include energetic particle effects, 3D helical equilibria, and density limit studies, microturbulence, ion heating, and magnetic self-organization physics. With neutral beam injection, several bursty energetic particle (EP) modes are observed. The profiles of the magnetic and density fluctuations associated with these EP-modes are measured using an FIR interferometer- polarimeter. Equilibrium reconstructions of the quasi-single-helicity 3D helical state are provided by the V3FIT code that now incorporates several of MST's advanced diagnostics. A predator-prey theoretical model based on sheared flow and/or magnetic field has been developed that captures key QSH dynamics. Upgraded pellet injection permits study of density and limits over MST's full range of operation, and an MST-record line-average density of 0 : 9 10 20 { m 3 ( n { n G 1 : 4 ) has been obtained. Plasma exhibits saturation at tot § 20% for a wide range of density, 0 : 2 + n { n G + 1 : 6 . Gyrokinetic simulations (GENE) based on experimental toroidal equilibrium reconstructions predict unstable trapped electron modes. Nonlinear simulations show that the "Dimits shift" is large and persists at finite . Experimentally, small-scale density fluctuations are detected in improved confine- ment plasmas. Impurity ion temperature measurements reveal a charge-to-mass-ratio dependence in the rapid heating that occurs during a sawtooth crash. Also, a toroidal asymmetry in the ion temper- ature is measured, correlated with 3D magnetic structure associated with tearing modes. Magnetic self-organization studies include measurements and modeling of the dynamo emf in standard RFP operation as well as with an applied ac inductive electric field to investigate the dynamics of oscillating field current drive (OFCD). Extended MHD computation for standard RFP conditions using NIMROD predicts dynamical coupling of current and plasma flow relaxation. The dynamo emf has also been measured when OFCD is applied, strengthening the understanding of and possibility for steady-state current sustainment using inductive current drive.

Published

2014

2. Predator-Prey Time Dynamics and Locking Control of Spontaneous Helical States in the RFP

Author

M. Nornberg, F. Auriemma, D. Brower, M. Cianciosa, B. Chapman, W. Ding, J. Duff, P. Franz, J. Goetz, J. Hanson, D. Den Hartog, D. Holly, P. Innocente, J. Koliner, L. Lin, M. McGarry, L. Morton, S. Munaretto, E. Parke, J. Sarff, D. Terranova, P. Terry, and G. Whelan

Subjects

Physics::Plasma Physics

Abstract

Reversed Field Pinch (RFP) plasmas tend toward self-organized behavior depending on the nonlinear coupling between mutually interacting tearing modes. In multiple helicity plasmas one or more linearly unstable tearing modes may drive energy into stable modes through this coupling. In contrast, at high current and low density plasmas tend towards a state with a single dominant core mode. Although secondary modes are present, their amplitudes are reduced in this Quasi-Single Helicity (QSH) state. Recent work on modeling the shear-suppression mechanism has produced a predator-prey model of the QSH dynamics that reproduces the observed time dynamic behavior, in particular the increased persistence of the QSH state with increased plasma current. To diagnose these plasmas, we have established an error field control mechanism that locks the structure to a particular helical phase, to the advantage of the advanced diagnostic set on MST. With this diagnostic set, we have obtained evidence of helical structure in electron temperature, density, and impurity temperature.

Published

2014

3. Overview of results from the MST reversed field pinch experiment

Author

J.S. Sarff, A.F. Almagri, J.K. Anderson, M. Borchardt, D. Carmody, K. Caspary, B.E. Chapman, D.J. Den Hartog, J. Duff, S. Eilerman, A. Falkowski, C.B. Forest, J.A. Goetz, D.J. Holly, J.-H. Kim, J. King, J. Ko, J. Koliner, S. Kumar, J.D. Lee, D. Liu, R. Magee, K.J. McCollam, M. McGarry, V.V. Mirnov, M.D. Nornberg, P.D. Nonn, S.P. Oliva, E. Parke, J.A. Reusch, J.P. Sauppe, A. Seltzman, C.R. Sovinec, H. Stephens, D. Stone, D. Theucks, M. Thomas, J. Triana, P.W. Terry, J. Waksman, W.F. Bergerson, D.L. Brower, W.X. Ding, L. Lin, D.R. Demers, P. Fimognari, J. Titus, F. Auriemma, S. Cappello, P. Franz, P. Innocente, R. Lorenzini, E. Martines, B. Momo, P. Piovesan, M. Puiatti, M. Spolaore, D. Terranova, P. Zanca, V. Belykh, V.I. Davydenko, P. Deichuli, A.A. Ivanov, S. Polosatkin, N.V. Stupishin, D. Spong, D. Craig, R.W. Harvey, M. Cianciosa, J.D. Hanson, Sarff, J, Almagri, A, Anderson, J, Borchardt, M, Carmody, D, Caspary, K, Chapman, B, Den Hartog, D, Duff, J, Eilerman, S, Falkowski, A, Forest, C, Goetz, J, Holly, D, Kim, J, King, J, Ko, J, Koliner, J, Kumar, S, Lee, J, Liu, D, Magee, R, Mccollam, K, Mcgarry, M, Mirnov, V, Nornberg, M, Nonn, P, Oliva, S, Parke, E, Reusch, J, Sauppe, J, Seltzman, A, Sovinec, C, Stephens, H, Stone, D, Theucks, D, Thomas, M, Triana, J, Terry, P, Waksman, J, Bergerson, W, Brower, D, Ding, W, Lin, L, Demers, D, Fimognari, P, Titus, J, Auriemma, F, Cappello, S, Franz, P, Innocente, P, Lorenzini, R, Martines, E, Momo, B, Piovesan, P, Puiatti, M, Spolaore, M, Terranova, D, Zanca, P, Belykh, V, Davydenko, V, Deichuli, P, Ivanov, A, Polosatkin, S, Stupishin, N, Spong, D, Craig, D, Harvey, R, Cianciosa, M, and Hanson, J

Subjects

MST, Nuclear and High Energy Physics, Physics::Plasma Physics, RFP, reversed field pinch, Condensed Matter Physics

Abstract

An overview of recent results from the MST programme on physics important for the advancement of the reversed field pinch (RFP) as well as for improved understanding of toroidal magnetic confinement more generally is reported. Evidence for the classical confinement of ions in the RFP is provided by analysis of impurity ions and energetic ions created by 1 MW neutral beam injection (NBI). The first appearance of energetic-particle-driven modes by NBI in a RFP plasma is described. MST plasmas robustly access the quasi-single-helicity state that has commonalities to the stellarator and 'snake' formation in tokamaks. In MST the dominant mode grows to 8% of the axisymmetric field strength, while the remaining modes are reduced. Predictive capability for tearing mode behaviour has been improved through nonlinear, 3D, resistive magnetohydrodynamic computation using the measured resistivity profile and Lundquist number, which reproduces the sawtooth cycle dynamics. Experimental evidence and computational analysis indicates two-fluid effects, e.g., Hall physics and gyro-viscosity, are needed to understand the coupling of parallel momentum transport and current profile relaxation. Large Reynolds and Maxwell stresses, plus separately measured kinetic stress, indicate an intricate momentum balance and a possible origin for MST's intrinsic plasma rotation. Gyrokinetic analysis indicates that micro-tearing modes can be unstable at high beta, with a critical gradient for the electron temperature that is larger than for tokamak plasmas by roughly the aspect ratio.

Published

2013

4. Overview of results from the MST reversed field pinch experiment

Author

J.S. Sarff, A.F. Almagri, J.K. Anderson, M. Borchardt, W. Cappechi, D. Carmody, K. Caspary, B.E. Chapman, D.J. Den Hartog, J. Duff, S. Eilerman, A. Falkowski, C.B. Forest, M. Galante, J.A. Goetz, D.J. Holly, J. Koliner, S. Kumar, J.D. Lee, D. Liu, K.J. McCollam, M. McGarry, V.V. Mirnov, L. Morton, S. Munaretto, M.D. Nornberg, P.D. Nonn, S.P. Oliva, E. Parke, M.J. Pueschel, J.A. Reusch, J. Sauppe, A. Seltzman, C.R. Sovinec, D. Stone, D. Theucks, M. Thomas, J. Triana, P.W. Terry, J. Waksman, G.C. Whelan, D.L. Brower, W.X. Ding, L. Lin, D.R. Demers, P. Fimognari, J. Titus, F. Auriemma, S. Cappello, P. Franz, P. Innocente, R. Lorenzini, E. Martines, B. Momo, P. Piovesan, M. Puiatti, M. Spolaore, D. Terranova, P. Zanca, V.I. Davydenko, P. Deichuli, A.A. Ivanov, S. Polosatkin, N.V. Stupishin, D. Spong, D. Craig, H. Stephens, R.W. Harvey, M. Cianciosa, J.D. Hanson, B.N. Breizman, M. Li, L.J. Zheng, Sarff, J, Almagri, A, Anderson, J, Borchardt, M, Cappechi, W, Carmody, D, Caspary, K, Chapman, B, Den Hartog, D, Duff, J, Eilerman, S, Falkowski, A, Forest, C, Galante, M, Goetz, J, Holly, D, Koliner, J, Kumar, S, Lee, J, Liu, D, Mccollam, K, Mcgarry, M, Mirnov, V, Morton, L, Munaretto, S, Nornberg, M, Nonn, P, Oliva, S, Parke, E, Pueschel, M, Reusch, J, Sauppe, J, Seltzman, A, Sovinec, C, Stone, D, Theucks, D, Thomas, M, Triana, J, Terry, P, Waksman, J, Whelan, G, Brower, D, Ding, W, Lin, L, Demers, D, Fimognari, P, Titus, J, Auriemma, F, Cappello, S, Franz, P, Innocente, P, Lorenzini, R, Martines, E, Momo, B, Piovesan, P, Puiatti, M, Spolaore, M, Terranova, D, Zanca, P, Davydenko, V, Deichuli, P, Ivanov, A, Polosatkin, S, Stupishin, N, Spong, D, Craig, D, Stephens, H, Harvey, R, Cianciosa, M, Hanson, J, Breizman, B, Li, M, and Zheng, L

Subjects

gyrokinetic, stellarator, Nuclear and High Energy Physics, Reversed field pinch, energetic particle, gyrokinetics, density limit, energetic particles, Condensed Matter Physics, beta limit

Abstract

An overview of recent results from the MST reversed field pinch programme is presented. With neutral beam injection, bursty energetic particle (EP) modes are observed. The profiles of the magnetic and density fluctuations associated with these EP modes are measured using a far infrared interferometer-polarimeter. Equilibrium reconstructions of the quasi-single-helicity 3D helical state are provided by the V3FIT code that now incorporates several of MST's advanced diagnostics. The orientation of the helical structure is controlled using a new resonant magnetic perturbation technique. Gyrokinetic simulations based on experimental equilibria predict unstable trapped-electron modes (TEMs), and small-scale density fluctuations are detected in improved-confinement plasmas with TEM-like features. Upgraded pellet injection permits study of density and beta limits over MST's full range of operation, and an MST-record line-average density of 0.9 ×1020 m3 (n/nG = 1.4) has been obtained. Impurity ion temperature measurements reveal a charge-to-mass-ratio dependence in the rapid heating that occurs during a sawtooth crash. Runaway of NBI-born fast ions during the impulsive sawtooth event agrees with test-particle theory. Magnetic self-organization studies include measurements of the dynamo emf with an applied ac inductive electric field using oscillating field current drive.

Published

2015

5. Identification of island-induced Alfvén eigenmodes in a reversed field pinch.

Author

C R Cook, C C Hegna, J K Anderson, K J McCollam, J Boguski, R Feng, J J Koliner, D A Spong, and S P Hirshman

Subjects

REVERSED field pinches, MAGNETIC fields, TORUS, COMPUTER simulation, ELECTRICAL harmonics

Abstract

The modification of the shear Alfvén spectrum due to a core resonant magnetic island is used to explain the Alfvénic activity observed on the Madison symmetric torus (MST) reversed-field pinch during neutral beam injection. Theoretical studies show that the Alfvén continua in the core of the island provide a gap in which the observed Alfvénic bursts reside. Numerical simulations using a new code called SIESTAlfvén have identified the bursts as the first observation of an island-induced Alfvén eigenmode (IAE) in an RFP. The IAE arises from a helical coupling of harmonics due to the magnetic island. [ABSTRACT FROM AUTHOR]

Published

2016