B. de Groot scite author profile

Experiments with strong localized electron cyclotron heating (ECH) in the RTP tokamak show that electron heat transport is governed by alternating layers of good and bad thermal conduction. For central deposition hot T e filaments are observed inside the q = 1 radius. Moving the ECH resonance from the centre to the edge of the plasma results in discrete steps of the central electron temperature. The transitions occur when the minimum q value crosses q = 1, 2, 5/2 or 3, and correspond to the loss of a transport barrier situated close to the rational q value. Close to the transitions a new type of sawtooth activity is observed, characterized by the formation of sharp off-axis maxima on the T e profile, which collapse abruptly. The formation of the off-axis maxima is attributed to heat deposition precisely 'on top of' a transport barrier.

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Extreme hydrogen plasma densities achieved in a linear plasma generator

Rooij¹,

Veremiyenko²,

Goedheer³

et al. 2007

147

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Effect of Ti-Al cathode composition on plasma generation and plasma transport in direct current vacuum arc Estimation of electron temperature and density of the decay plasma in a laser-assisted discharge plasma extreme ultraviolet source by using a modified Stark broadening method A magnetized hydrogen plasma beam was generated with a cascaded arc, expanding in a vacuum vessel at an axial magnetic field of up to 1.6 T. Its characteristics were measured at a distance of 4 cm from the nozzle: up to a 2 cm beam diameter, 7.5ϫ 10 20 m −3 electron density, ϳ2 eV electron and ion temperatures, and 3.5 km/ s axial plasma velocity. This gives a 2.6ϫ 10 24 H + m −2 s −1 peak ion flux density, which is unprecedented in linear plasma generators. The high efficiency of the source is obtained by the combined action of the magnetic field and an optimized nozzle geometry. This is interpreted as a cross-field return current that leads to power dissipation in the beam just outside the source.

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PSI research in the ITER divertor parameter range at the FOM PSI-lab

et al. 2007

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Extreme hydrogen plasma fluxes at Pilot-PSI enter the ITER divertor regime

Groot¹,

Al²,

Engeln³

et al. 2007

Fusion Engineering and Design

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Magnum-psi, a new linear plasma generator for plasma-surface interaction studies in ITER relevant conditions

Groot

Ahmad

Dahiya

et al. 2003

Fusion Engineering and Design

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B. de Groot

Electron thermal transport in RTP: filaments, barriers and bifurcations

Extreme hydrogen plasma densities achieved in a linear plasma generator

PSI research in the ITER divertor parameter range at the FOM PSI-lab

Extreme hydrogen plasma fluxes at Pilot-PSI enter the ITER divertor regime

Magnum-psi, a new linear plasma generator for plasma-surface interaction studies in ITER relevant conditions

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