Resonant magnetic perturbations (RMPs) are a special type of magnetic field perturbations used to control burning plasma instabilities called edge-localized modes (ELMs) in magnetic fusion devices such as tokamaks. The efficiency of RMPs for controlling ELMs was first demonstrated on the tokamak DIII-D in 2003.[1]
Normally the rippled magnetic field will only suppress ELMs for very narrow ranges of the plasma current.[2]
See also
- Plasma instability
- COMPASS tokamak
- NSTX-U, also uses RMPs to control ELMs
References
- ↑ T.E. Evans; et al. (2004). "Suppression of Large Edge-Localized Modes in High-Confinement DIII-D Plasmas with a Stochastic Magnetic Boundary". Physical Review Letters. 92 (23): 235003. Bibcode:2004PhRvL..92w5003E. doi:10.1103/PhysRevLett.92.235003. PMID 15245164.
- ↑ Fusion Power Breakthrough: New Method for Eliminating Damaging Heat Bursts in Toroidal Tokamaks
Further reading
- Effect of resonant magnetic perturbations on ELMs in connected double null plasmas in MAST
- RMP ELM suppression in DIII-D plasmas with ITER similar shapes and collisionalities 2008, RMP for ITER-like plasma triangularity is harder
- Connection between plasma response and RMP ELM suppression in DIII-D Wingen 2015 free access
- Wide Operational Windows of Edge-Localized Mode Suppression by Resonant Magnetic Perturbations in the DIII-D Tokamak 2020 "The model predicts that wide q95 windows of ELM suppression can be achieved at substantially higher pedestal pressure in DIII-D by shifting to higher toroidal mode number (n=4) RMPs."
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