D. Elbeze scite author profile

Modes oscillating at the acoustic frequency and identified as beta Alfvén eigenmodes (BAEs) have been observed in Tore-Supra under ion cyclotron resonant heating. In this paper, the linear excitation threshold of these modes, thought to be driven by suprathermal ions, is calculated and compared with Tore-Supra observations. Similar studies of the linear excitation threshold of energetic particles driven modes were carried out previously for toroidal Alfvén eigenmodes or fishbones. In the case of BAEs, the main point is to understand whether the energetic particle drive is able to exceed ion Landau damping, which is expected to be important in the acoustic frequency range. For this, the BAE dispersion relation is computed and simplified in order to derive a tractable excitation criterion suitable for comparison with experiments. The observation of BAEs in Tore-Supra is found to be in agreement with the calculated criterion and confirms the possibility to trigger these modes in the presence of ion Landau damping. Moreover, the conducted analysis clearly puts forward the role of the global tunable parameters which play a role in the BAE excitation (the magnetic field, the density etc), as well as the role of some plasma profiles. In particular, the outcome of a modification of the shear or of the heating localization is found to be non-negligible and it is discussed in the paper.

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Redistribution of Suprathermal Electrons due to Fishbone Frequency Jumps

Macor

Goniche

Artaud

et al. 2009

Phys. Rev. Lett.

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MHD instabilities driven by fast electrons identified as fishbonelike modes have been detected on Tore Supra during lower hybrid current drive discharges. Direct experimental evidence is reported of a novel feature: the regular redistribution of suprathermal electrons toward external tokamak regions which are correlated to periodic mode frequency jumps. Sharp drops of the electron temperature time trace are factually linked to the cyclical deterioration of the fast electron confinement.

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Observation of acoustic and subacoustic fast particles driven modes in Tore-Supra

et al. 2009

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Energetic particles driven modes are one of the concerns for burning plasmas. On Tore-Supra, fast ions and electrons are generated by the RF heating systems and fast particles driven modes are detected with ECE and reflectometry diagnostics. In ICRH heated plasmas, modes are observed in the acoustic frequency range 30–70 kHz. The observed frequency agrees with the frequency predicted for both geodesic acoustic modes and beta Alfvén eigenmodes (BAE), but their structure and their excitation by fast ions advocate for an identification as BAE. Experimental analysis displays the existence of an excitation threshold depending on various parameters such as the ICRH power, the minority fraction and the density, in agreement with the theoretical prediction resulting from a balance between the fast ion drive and Landau damping by thermal ions. In lower hybrid current drive plasmas, electron fishbones have been detected below 20 kHz. Evolution of the fishbone modes with LH power was studied. Precession fishbones are observed at moderate power to be replaced by a mode at diamagnetic frequency at higher power. Precession fishbone frequency exhibits periodical jumps (0.1 s). These jumps are linked to spontaneous transitions between modes at different wavenumbers and a redistribution of the fast electrons in resonance with these modes. The number of excited modes and their wave number change with the LH power.

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D. Elbeze

Excitation of beta Alfvén eigenmodes in Tore-Supra

Redistribution of Suprathermal Electrons due to Fishbone Frequency Jumps

Observation of acoustic and subacoustic fast particles driven modes in Tore-Supra

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