Abstract
Linear plasma generators are cost effective facilities to simulate divertor plasma conditions of present and future fusion reactors. They are used to address important R&D gaps in the science of plasma material interactions and towards viable plasma facing components for fusion reactors. Next generation plasma generators have to be able to access the plasma conditions expected on the divertor targets in ITER and future devices. The steady-state linear plasma device MPEX will address this regime with electron temperatures of 1-10 eV and electron densities of 1021-1020 m-3. The resulting heat fluxes are about 10 MW m-2. MPEX is designed to deliver those plasma conditions with a novel Radio Frequency plasma source able to produce high density plasmas and heat electron and ions separately with electron Bernstein wave (EBW) heating and ion cyclotron resonance heating with a total installed power of 800 kW. The linear device Proto-MPEX, forerunner of MPEX consisting of 12 water-cooled copper coils, has been operational since May 2014. Its helicon antenna (100 kW, 13.56 MHz) and EC heating systems (200 kW, 28 GHz) have been commissioned and 14 MW m-2 was delivered on target. Furthermore, electron temperatures of about 20 eV have been achieved in combined helicon and ECH heating schemes at low electron densities. Overdense heating with EBW was achieved at low heating powers. The operational space of the density production by the helicon antenna was pushed up to 1.1 × 1020 m-3 at high magnetic fields of 1.0 T at the target. The experimental results from Proto-MPEX will be used for code validation to enable predictions of the source and heating performance for MPEX. MPEX, in its last phase, will be capable to expose neutronirradiated samples. In this concept, targets will be irradiated in ORNLs High Flux Isotope Reactor and then subsequently exposed to fusion reactor relevant plasmas in MPEX.
Original language | English |
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Article number | 116001 |
Journal | Nuclear Fusion |
Volume | 57 |
Issue number | 11 |
DOIs | |
State | Published - Jul 27 2017 |
Funding
This material is based upon work supported by the US Department of Energy, Office of Science, Office of Fusion Energy Sciences under Contract No. DE-AC05-00OR22725. The authors would like to thank R.W. Harvey and Yu.V. Petrov from CompX for their support of the GENRAY ray-tracing code.
Funders | Funder number |
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U.S. Department of Energy | |
Office of Science | |
Fusion Energy Sciences | DE-AC05-00OR22725 |
Keywords
- divertor
- linear plasma devices
- nuclear materials
- plasma material interactions