Owen J. Davies scite author profile

A power-balance model, with radiation losses from impurities and neutrals, gives a unified description of the density limit (DL) of the stellarator, the L-mode tokamak, and the reversed field pinch (RFP). The model predicts a Sudo-like scaling for the stellarator, a Greenwald-like scaling, , for the RFP and the ohmic tokamak, a mixed scaling, , for the additionally heated L-mode tokamak. In a previous paper (Zanca et al 2017 Nucl. Fusion 57 056010) the model was compared with ohmic tokamak, RFP and stellarator experiments. Here, we address the issue of the DL dependence on heating power in the L-mode tokamak. Experimental data from high-density disrupted L-mode discharges performed at JET, as well as in other machines, are taken as a term of comparison. The model fits the observed maximum densities better than the pure Greenwald limit.

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Overview of the JET results in support to ITER

Litaudon¹,

Abduallev²,

Abhangi³

et al. 2017

Nucl. Fusion

164

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The 2014–2016 JET results are reviewed in the light of their significance for optimising the ITER research plan for the active and non-active operation. More than 60 h of plasma operation with ITER first wall materials successfully took place since its installation in 2011. New multi-machine scaling of the type I-ELM divertor energy flux density to ITER is supported by first principle modelling. ITER relevant disruption experiments and first principle modelling are reported with a set of three disruption mitigation valves mimicking the ITER setup. Insights of the L–H power threshold in Deuterium and Hydrogen are given, stressing the importance of the magnetic configurations and the recent measurements of fine-scale structures in the edge radial electric. Dimensionless scans of the core and pedestal confinement provide new information to elucidate the importance of the first wall material on the fusion performance. H-mode plasmas at ITER triangularity (H = 1 at βN ~ 1.8 and n/nGW ~ 0.6) have been sustained at 2 MA during 5 s. The ITER neutronics codes have been validated on high performance experiments. Prospects for the coming D–T campaign and 14 MeV neutron calibration strategy are reviewed.

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Analysis and design of a circular TE01 mode transducer

Saad

Davies

1977

IEE J. Microw. Opt. Acoust. UK

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An analysis and design procedure are presented for a mode transducer which converts the rectangular TE 10 mode into the circular TE 01 mode. The field analysis leads to an explicit evaluation of the transducer's s matrix. An experimental model has been designed using the procedure and the measured performance, 0-2 dB average insertion loss from 33 to 50 GHz, is a significant improvement upon previously reported designs.

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Computer Design of Efficient TEOl Circular Waveguide Transducers

Davies

Saad

1974

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Global scaling of the heat transport in fusion plasmas

Moradi¹,

Anderson²,

Kim³

et al. 2020

Phys. Rev. Research

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A global heat flux model based on a fractional derivative of plasma pressure is proposed for the heat transport in fusion plasmas. The degree of the fractional derivative of the heat flux, α, is defined through the power balance analysis of the steady state. The model was used to obtain the experimental values of α for a large database of the JET Carbon-wall as well as ITER Like-wall plasmas. The findings show that the average fractional degree of the heat flux over the database for electrons is α ∼ 0.8, suggesting a global scaling between the net heating and the pressure profile in the JET plasmas. The model is expected to provide an accurate and a simple description of heat transport that can be used in transport studies of fusion plasmas.

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Owen J. Davies

A power-balance model of the density limit in fusion plasmas: application to the L-mode tokamak

Overview of the JET results in support to ITER

Analysis and design of a circular TE01 mode transducer

Computer Design of Efficient TEOl Circular Waveguide Transducers

Global scaling of the heat transport in fusion plasmas

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