Your search keyword '"G. N. Throumoulopoulos"' showing total 5 results

1. Tokamak MHD equilibria with reversed magnetic shear and sheared flow

Author

G. Poulipoulis, Henri Tasso, and G. N. Throumoulopoulos

Subjects

Tokamak, FOS: Physical sciences, asdex upgrade, discharges, itb formation, law.invention, Physics::Fluid Dynamics, Physics::Plasma Physics, law, jet, Electric field, Shear velocity, Magnetohydrodynamic drive, Physics, Condensed matter physics, steady-state operation, Magnetic confinement fusion, stability, plasmas, Condensed Matter Physics, Physics - Plasma Physics, Magnetic field, Plasma Physics (physics.plasm-ph), Nuclear Energy and Engineering, confinement, internal transport barriers, Magnetohydrodynamics, Atomic physics, Shear flow, diii-d tokamak

Abstract

Analytical solutions of the magnetohydrodynamic equilibrium equations for a cylindrically symmetric magnetically confined plasma with reversed magnetic shear, s < 0, and sheared flow are constructed by prescribing the safety factor, poloidal velocity and axial velocity profiles consistently with experimental ones. On the basis of the solutions obtained, in most of the cases considered, it turns out that an increase of \s\ and of the velocity components result in larger absolute values for the radial electric field, E-r its shear, \dE(r)/dr\ drop \E'(r)\, and the E x B velocity shear, (omega(ExB) = \(d/dr)(E x B/B-2)\, which may play a role in the formation of internal transport barriers in tokamaks. In particular for a constant axial magnetic field, omega(ExB) at the point where E'(r) = 0 is proportional to 1 - s. Also, \E'(r)\ and omega(ExB) increase as the velocity shear takes larger values. The results clearly indicate that s < 0 and sheared flow acts synergetically in an increase of omega(ExB) with the impact of the flow, in particular the poloidal one being stronger than that of s < 0. Plasma Physics and Controlled Fusion

Published

2004

2. Analytic axisymmetric equilibria with pressure anisotropy and non-parallel flow

Author

G. N. Throumoulopoulos, A. Evangelias, and Ap Kuiroukidis

Subjects

Physics, Nuclear Energy and Engineering, Parallel flow, 0103 physical sciences, Rotational symmetry, Thermodynamics, Mechanics, 010306 general physics, Condensed Matter Physics, Anisotropy, 01 natural sciences, 010305 fluids & plasmas

Published

2017

3. Axisymmetric equilibria with pressure anisotropy and plasma flow

Author

A. Evangelias and G. N. Throumoulopoulos

Subjects

Physics, Partial differential equation, Differential equation, Isotropy, FOS: Physical sciences, Mechanics, Condensed Matter Physics, 01 natural sciences, Physics - Plasma Physics, 010305 fluids & plasmas, Plasma Physics (physics.plasm-ph), Grad–Shafranov equation, Nuclear Energy and Engineering, Flow (mathematics), Physics::Plasma Physics, Incompressible flow, Physics::Space Physics, 0103 physical sciences, Fluid dynamics, 010306 general physics, Anisotropy

Abstract

A generalised Grad-Shafranov equation that governs the equilibrium of an axisymmetric toroidal plasma with anisotropic pressure and incompressible flow of arbitrary direction is derived. This equation includes six free surface functions and recovers known Grad-Shafranov-like equations in the literature as well as the usual static, isotropic one. The form of the generalised equation indicates that pressure anisotropy and flow act additively on equilibrium. In addition, two sets of analytical solutions, an extended Solovev one with a plasma reaching the separatrix and an extended Hernegger-Maschke one for a plasma surrounded by a fixed boundary possessing an X-point, are constructed, particularly in relevance to the ITER and NSTX tokamaks. Furthermore, the impacts both of pressure anisotropy and plasma flow on these equilibria are examined. It turns out that depending on the maximum value and the shape of an anisotropy function, the anisotropy can act either paramagnetically or diamagnetically. Also, in most of the cases considered both the anisotropy and the flow have stronger effects on NSTX equilibria than on ITER ones., 27 pages, 14 figures

Published

2016

4. Axisymmetric force-free states and relaxation of a spheroidal Spheromak

Author

G. N. Throumoulopoulos and G. Pantis

Subjects

Physics, Classical mechanics, Toroid, Nuclear Energy and Engineering, Spheromak, Physics::Plasma Physics, Rotational symmetry, Relaxation (physics), Prolate spheroid, Plasma, Condensed Matter Physics, Relaxation theory, Eigenvalues and eigenvectors

Abstract

Axisymmetric force-free equilibrium eigenstates for a prolate as well as an oblate spheroidal Spheromak with arbitrary elongation are obtained. In the framework of the Woltjer-Taylor relaxation theory the relaxed states are also identified. A simple hypothesis for the relaxation process is introduced, which implies that the plasma relaxes from multitoroidal formations to a singly toroidal configuration in qualitative agreement with experimental results.

Published

1990

5. Comment on the paper ‘An analytic functional form for characterization and generation of axisymmetric plasma boundaries’ (2013Plasma Phys. Control. Fusion55 095009)

Author

G. N. Throumoulopoulos and Ap Kuiroukidis

Subjects

Physics, Fusion, Nuclear Energy and Engineering, Rotational symmetry, Plasma, Mechanics, Condensed Matter Physics, Characterization (materials science)

Published

2015