Alfvén waves

Alfvén waves discovered by Hannes Alfvén are fundamental electromagnetic oscillations prevalent in magnetically confined plasmas existing in the nature and laboratories. Alfvén waves play important roles in the heating, stability, and transport of magnetized plasmas.

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Fast Alfvén wave:

The fast Alfvén wave exists over a broad frequency spectrum, from the ion cyclotron range of frequencies (ICRF) where its character is electromagnetic, down to magnetohydrodynamic frequencies. Its velocity is comparable to the Alfvén velocity. The fast Alfvén wave is used routinely for high-power (about 20 megawatts) ICRF heating on JET, as it is efficiently absorbed in the plasma by the mechanism of ion cyclotron resonance.

Alfvén velocity:

The velocity of propagation of Alfvén waves in the direction of the magnetic field; it is proportional to the magnetic field strength, and inversely proportional to the square root of the ion density.

Alfvén time:

The time taken for an Alfvén wave to travel one radian in the toroidal direction. This is a measure of the time-scale on which Alfvénic magnetohydrodynamic effects can occur.

Alfvén gap modes:

The toroidal nature of tokamak plasmas produces gaps in the otherwise continuous spectrum of Alfvén waves, which are populated by discrete, undamped Alfvén gap modes. These modes could be easily destabilised by resonant energy transfer from energetic particles (e.g. alpha particles from fusion reactions). Similar to Toroidal Alfvén Eigenmodes or TAE modes.

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