Samenvatting
The stability of alpha particle driven Alfvén eigenmodes (AEs) is
analysed in high fusion power DT discharges on JET. Both hot ion H mode
and shear optimized discharges are considered. Unstable AEs are not
observed in hot ion H mode DT discharges even at the highest fusion
power with alpha particle beta βα (0) approx 0.7%.
Theoretical analysis shows that the AE stabilization is caused by the
large plasma pressure, which prevents the existence of core localized
AEs at peak fusion performance. Kinetic toroidal AEs (KTAEs), which
persist at high plasma pressure, are found to be radially extended and
subject to strong damping. The stability analysis based on the CASTOR-K
code confirms that AEs cannot be driven unstable by alpha particles in
high performance hot ion H mode discharges performed at JET.
Alfvén eigenmodes in shear optimized regimes are more unstable
than those in the hot ion H mode mainly due to the elevated central
safety factor q, which increases the efficiency of AE interaction with
energetic ions. As a consequence, AEs are observed in shear optimized DT
discharges when ion cyclotron heating as low as 1 MW is applied.
Originele taal-2 | Engels |
---|---|
Pagina's (van-tot) | 373-388 |
Tijdschrift | Nuclear Fusion |
Volume | 39 |
Nummer van het tijdschrift | 3 |
DOI's | |
Status | Gepubliceerd - 1 mrt. 1999 |
Extern gepubliceerd | Ja |