K. I. Hopcraft scite author profile

Plasma fluctuations in the scrape-off layer (SOL) of the TCV tokamak exhibit statistical properties which are universal across a broad range of discharge conditions. Electron density fluctuations, from just inside the magnetic separatrix to the plasma-wall interface, are described well by a gamma distributed random variable. The density fluctuations exhibit clear evidence of self-similarity in the far SOL, such that the corresponding probability density functions collapse upon renormalization solely by the mean particle density. This constitutes a demonstration that the amplitude of the density fluctuations is simply proportional to the mean density and is consistent with the further observation that the radial particle flux fluctuations scale solely with the mean density over two orders of magnitude. Such findings indicate that it may be possible to improve the prediction of transport in the critical plasma-wall interaction region of future large scale tokamaks.

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The HAGIS self-consistent nonlinear wave-particle interaction model

Pinches

Appel

Candy

et al. 1998

Computer Physics Communications

188

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The effects of sheared toroidal plasma rotation on the internal kink mode in the banana regime

Graves

Hastie

Hopcraft

2000

Plasma Phys. Control. Fusion

107

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The stability of the ideal internal kink mode is calculated, taking into account the kinetic response of thermal ions in the external region and the singular layer. By extending the collisionless dispersion relation to include the equilibrium radial electric field it is found that the stability of the internal kink mode depends sensitively on sheared toroidal plasma rotation. The sheared toroidal plasma rotation can increase the critical pressure for internal kink mode displacements typically by a factor of two.

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Ray tracing in absorbing media

Chang¹,

Walker²,

Hopcraft³

2005

Journal of Quantitative Spectroscopy and Radiative Transfer

117

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Improving visibility depth in passive underwater imaging by use of polarization

et al. 2003

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Results are presented that demonstrate the effectiveness of using polarization discrimination to improve visibility when imaging in a scattering medium. The study is motivated by the desire to improve visibility depth in turbid environments, such as the sea. Most previous research in this area has concentrated on the active illumination of objects with polarized light. We consider passive or ambient illumination, such as that deriving from sunlight or a cloudy sky. The basis for the improvements in visibility observed is that single scattering by small particles introduces a significant amount of polarization into light at scattering angles near 90 degrees: This light can then be distinguished from light scattered by an object that remains almost completely unpolarized. Results were obtained from a Monte Carlo simulation and from a small-scale experiment in which an object was immersed in a cell filled with polystyrene latex spheres suspended in water. In both cases, the results showed an improvement in contrast and visibility depth for obscuration that was due to Rayleigh particles, but less improvement was obtained for larger scatterers.

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K. I. Hopcraft

Self-similar density turbulence in the TCV tokamak scrape-off layer

The HAGIS self-consistent nonlinear wave-particle interaction model

The effects of sheared toroidal plasma rotation on the internal kink mode in the banana regime

Ray tracing in absorbing media

Improving visibility depth in passive underwater imaging by use of polarization

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