%A"Watanabe, K [Kyoto Univ. (Japan). Faculty of Engineering]" %A"Nakajima, N" %A"Okamoto, M" %A"Nakamura, Y" %A"Wakatani, M" %D1992 %I; National Inst. for Fusion Science, Nagoya (Japan) %2 %J[] %K70 PLASMA PHYSICS AND FUSION TECHNOLOGY, STELLARATORS, MHD EQUILIBRIUM, HELICAL CONFIGURATION, ROTATIONAL TRANSFORM, PLASMA, MAGNETIC CONFINEMENT, COMPUTER CALCULATIONS, HELIOTRON, V CODES, BETA RATIO, THREE-DIMENSIONAL CALCULATIONS, MAGNETIC SURFACES, BOOTSTRAP CURRENT, 700370, PLASMA FLUID AND MHD PROPERTIES %PMedium: X; Size: 45 p. %TThree-dimensional MHD equilibrium in the presence of bootstrap current for Large Helical Device (LHD) %XThree-dimensional MHD equilibria including the bootstrap current self-consistently are studied for the Large Helical Device (LHD). Magnitude of the bootstrap current is sensitive to the magnetic axis position or Shafranov shift in LHD, which is proportional to the plasma pressure and inversely proportional to the rotational transform. Since the bootstrap current enhances the rotational transform and reduces Shafranov shift, the self-consistent MHD equilibrium is crucial to estimate the bootstrap current. Total bootstrap current easily exceeds 100kA for LHD plasmas with <{beta}> > or approx. 1% under the assumption that both electrons and ions belong to the rare-collisional 1/{nu} regime in the whole plasma region, where <{beta}> is a volume averaged beta value. Effects of the vertical field, the quadrupole field and the pressure profile on the bootstrap current are also investigated. (author). %0Technical Report %NNIFS-139;Other: ON: DE93753311; TRN: JP9211232 %1 %CJapan %Rhttps://doi.org/ Other: ON: DE93753311; TRN: JP9211232 JPN %GEnglish