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Interpretating observations of ion cyclotron emission from Large Helical Device plasmas with beam-injected ion populations
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Reman, Bernard Charles G, Dendy, Richard, Akiyama, T., Chapman, Sandra C., Cook, J. W. S., Igami, H., Inagaki, S., Saito, K. and Yun, G. S. (2019) Interpretating observations of ion cyclotron emission from Large Helical Device plasmas with beam-injected ion populations. Nuclear Fusion, 59 (9). 096013. doi:10.1088/1741-4326/ab2ca2 ISSN 0029-5515.
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Official URL: https://doi.org/10.1088/1741-4326/ab2ca2
Abstract
Ion cyclotron emission (ICE) is detected from all large toroidal magnetically confined fusion (MCF) plasmas. It is a form of spontaneous suprathermal radiation, whose spectral peak frequencies correspond to sequential cyclotron harmonics of energetic ion species, evaluated at the emission location. We first present an account of the worldwide experimental ICE database, highlighting the phenomenological importance of the value of the ratio of energetic ion velocity v<sub>energetic</sub> to the local Alfvén speed V<sub>A</sub>. We then focus on ICE measurements from heliotron-stellarator hydrogen plasmas, heated by energetic proton neutral beam injection (NBI) in the Large Helical Device, for which v<sub>energetic</sub>/V<sub>A</sub> takes values both larger (super-Alfvénic) and smaller (sub-Alfvénic) than unity. The collective relaxation of the NBI proton population, together with the thermal plasma, is studied using a particle-in-cell (PIC) code. This evolves the Maxwell-Lorentz system of equations for hundreds of millions of kinetic gyro-orbit-resolved ions and fluid electrons, self-consistently with the electric and magnetic fields. For LHD-relevant parameter sets, the spatiotemporal Fourier transforms of the fields yield, in the nonlinear saturated regime, good computational proxies for the observed ICE spectra in both the super-and sub-Alfvénic regimes for NBI protons. At early times in the PIC treatment, the computed growth rates correspond to analytical linear growth rates of the magnetoacoustic cyclotron instability (MCI), which was previously identified to underly ICE from tokamak plasmas. The spatially localised PIC treatment does not include toroidal effects or geometry. Its success in simulating ICE spectra from tokamak and, here, heliotron-stellarator plasmas suggests that the plasma parameters and ion energetic distribution at the emission location suffice to determine the ICE phenomenology. The capability to span the super-Alfvénic and sub-Alfvénic energetic ion regimes is a generic challenge in interpreting MCF plasma physics, and it is encouraging that this first principles computational treatment of ICE has now achieved this.
| Item Type: | Journal Article | |||||||||||||||||||||
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| Subjects: | Q Science > QC Physics | |||||||||||||||||||||
| Divisions: | Faculty of Science, Engineering and Medicine > Science > Physics | |||||||||||||||||||||
| Library of Congress Subject Headings (LCSH): | Magnetohydrodynamic waves, Ion cyclotron resonance spectrometry, Cyclotrons, Neutral beams | |||||||||||||||||||||
| Journal or Publication Title: | Nuclear Fusion | |||||||||||||||||||||
| Publisher: | Institute of Physics Publishing Ltd. | |||||||||||||||||||||
| ISSN: | 0029-5515 | |||||||||||||||||||||
| Official Date: | 19 July 2019 | |||||||||||||||||||||
| Dates: |
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| Volume: | 59 | |||||||||||||||||||||
| Number: | 9 | |||||||||||||||||||||
| Article Number: | 096013 | |||||||||||||||||||||
| DOI: | 10.1088/1741-4326/ab2ca2 | |||||||||||||||||||||
| Status: | Peer Reviewed | |||||||||||||||||||||
| Publication Status: | Published | |||||||||||||||||||||
| Access rights to Published version: | Open Access (Creative Commons) | |||||||||||||||||||||
| Date of first compliant deposit: | 12 June 2019 | |||||||||||||||||||||
| Date of first compliant Open Access: | 28 June 2019 | |||||||||||||||||||||
| RIOXX Funder/Project Grant: |
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