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JOURNAL ARTICLE

The Large Helical Device (LHD) helical divertor

N. OhyabuT. WatanabeHantao JiH. AkaoT. OnoT. KawamuraK. YamazakiK. AkaishiNoriyuki InoueA. KomoriYūsuke KubotaN. NodaA. SagaraH. SuzukiO. MotojimaMasami FujiwaraA. Iiyoshi

Year: 1994 Journal:   Nuclear Fusion Vol: 34 (3)Pages: 387-399   Publisher: IOP Publishing
DOI: 10.1088/0029-5515/34/3/i07
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Abstract

The Large Helical Device (LHD) now under construction is a heliotron/torsatron device with a closed divertor system. The edge LHD magnetic structure has been studied in detail. A peculiar feature of the configuration is the existence of edge surface layers, a complicated three dimensional magnetic structure which does not, however, seem to hamper the expected divertor functions. Two divertor operational modes are being considered for the LHD experiment-high density, cold radiative divertor operation as a safe heat removal scheme and high temperature divertor plasma operation. In the latter operation, a divertor plasma with a temperature of a few keV, generated by efficient pumping, is expected to lead to a significant improvement in core plasma confinement. Conceptual designs of the LHD divertor components are under way

Keywords:
Divertor Large Helical Device Plasma Enhanced Data Rates for GSM Evolution Radiative transfer Materials science Atomic physics Radiative cooling Nuclear engineering Physics Tokamak Nuclear physics Optics Computer science Thermodynamics

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Citation History

Topics

Magnetic confinement fusion research
Physical Sciences →  Physics and Astronomy →  Nuclear and High Energy Physics
Fusion materials and technologies
Physical Sciences →  Materials Science →  Materials Chemistry
Superconducting Materials and Applications
Physical Sciences →  Engineering →  Biomedical Engineering

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