Simulation of Electromagnetic Wave Propagation in a Magnetospheric Plasma

Simulation of Electromagnetic Wave Propagation in a Magnetospheric Plasma

The Ring Trap 1 (RT-1) device creates a laboratory magnetosphere, that is motivated by the Jovian magnetosphere, which contains self-organized, high-beta plasmas. In the RT-1 plasmas, the density limit for 8.2 GHz electron cyclotron heating (ECH) occurs at the electron densities 8.0×1017 m−3 and for...

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Veröffentlicht in:Plasma and Fusion Research 2019/08/14, Vol.14, pp.3401134-3401134
Hauptverfasser: MORI, Takahiro, NISHIURA, Masaki, YOSHIDA, Zensho, KENMOCHI, Naoki, KATSURA, Shotaro, NAKAMURA, Kaori, YOKOTA, Yuuki, TSUJIMURA, Toru I., KUBO, Shin
Format: Artikel
Sprache:eng
Schlagworte:
ECH
electric field
electromagnetic wave propagation
electron cyclotron wave
magnetospheric plasma
over dense plasma
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Zusammenfassung:The Ring Trap 1 (RT-1) device creates a laboratory magnetosphere, that is motivated by the Jovian magnetosphere, which contains self-organized, high-beta plasmas. In the RT-1 plasmas, the density limit for 8.2 GHz electron cyclotron heating (ECH) occurs at the electron densities 8.0×1017 m−3 and for 2.45GHz ECH, 1.6×1017 m−3. We have used full-wave simulations to study the propagation and absorption of electromagnetic waves in the RT-1 plasmas in an effort to understand the observed density limits as well as the over-dense state in which the actual density exceeds the cutoff density of the magnetospheric plasma. The simulation results cannot explain the experimentally observed over-dense states and density limits in the view of the power absorption. We discuss possible reasons for the gap between the experiments and the simulation results.
ISSN:1880-6821
1880-6821
DOI:10.1585/pfr.14.3401134