Your search keyword '"T.C. Hender"' showing total 3 results

1. Microturbulence and Flow Shear in High-performance JET ITB Plasma

Author

A. Bicoulet, T. S. Hahm, W. Dorland, D. R. Ernst, D. McCune, S. E. Sharapov, C. Challis, Garrard Conway, R. V. Budny, T.C. Hender, G. Rewoldt, and A. Andre

Subjects

Mode number, Physics, Toroid, Shear (geology), Physics::Plasma Physics, Joint European Torus, Microturbulence, Plasma, Atomic physics, Transport barrier, Linear growth, Computational physics

Abstract

The transport, flow shear, and linear growth rates of microturbulence are studied for a Joint European Torus (JET) plasma with high central q in which an internal transport barrier (ITB) forms and grows to a large radius. The linear microturbulence growth rates of the fastest growing (most unstable) toroidal modes with high toroidal mode number are calculated using the GS2 and FULL gyrokinetic codes. These linear growth rates, gamma (subscript lin) are large, but the flow-shearing rates, gamma (subscript ExB) (dominated by the toroidal rotation contribution) are also comparably large when and where the ITB exists.

Published

2001

2. Effect of a static external magnetic perturbation on resistive mode stability in tokamaks

Author

R. Fitzpatrick and T.C. Hender

Published

1994

3. Neutral beam heating in stellarators: a numerical approach

Author

J.A. Rome, R.H. Fowler, T.C. Hender, and S.A. Hokin

Subjects

Physics, Thermalisation, Classical mechanics, Energetic neutral atom, Mathematical model, law, Monte Carlo method, Cartesian coordinate system, Plasma, Stellarator, Computational physics, law.invention, Particle deposition

Abstract

Calculation of neutral beam deposition and heating in stellarators is complicated by the twisty stellarator geometry and by the usual beam focusing, divergence, and cross-sectional shape considerations. A new deposition code has been written that takes all of this geometry into account. A unique feature of this code is that it gives particle deposition in field-line coordinates, enabling the thermalization problem to be solved more efficiently.

Published

1983