Abstract
Anomalous quasi-linear fluxes induced by the curvature drift resonance and transit resonance are evaluated in a rotating helical plasma. The radial electric field makes the Doppler shift, but does not contribute to the anomalous fluxes. The curvature drift resonance induces the new curvature term in the quasi-linear fluxes. The effect of helical magnetic field is through this curvature of magnetic field lines, and contributes to the inward transport. The ion heat diffusivity due to the curvature drift resonance is obtained in the form modified gyro-Bohm coefficient, and is compared with experimentally observed one in CHS Heliotron. (author).
Yamagishi, T
[1]
- Fukui Inst. of Tech. (Japan)
Citation Formats
Yamagishi, T.
Anomalous cross field flux in CHS.
Japan: N. p.,
1993.
Web.
Yamagishi, T.
Anomalous cross field flux in CHS.
Japan.
Yamagishi, T.
1993.
"Anomalous cross field flux in CHS."
Japan.
@misc{etde_10110081,
title = {Anomalous cross field flux in CHS}
author = {Yamagishi, T}
abstractNote = {Anomalous quasi-linear fluxes induced by the curvature drift resonance and transit resonance are evaluated in a rotating helical plasma. The radial electric field makes the Doppler shift, but does not contribute to the anomalous fluxes. The curvature drift resonance induces the new curvature term in the quasi-linear fluxes. The effect of helical magnetic field is through this curvature of magnetic field lines, and contributes to the inward transport. The ion heat diffusivity due to the curvature drift resonance is obtained in the form modified gyro-Bohm coefficient, and is compared with experimentally observed one in CHS Heliotron. (author).}
place = {Japan}
year = {1993}
month = {May}
}
title = {Anomalous cross field flux in CHS}
author = {Yamagishi, T}
abstractNote = {Anomalous quasi-linear fluxes induced by the curvature drift resonance and transit resonance are evaluated in a rotating helical plasma. The radial electric field makes the Doppler shift, but does not contribute to the anomalous fluxes. The curvature drift resonance induces the new curvature term in the quasi-linear fluxes. The effect of helical magnetic field is through this curvature of magnetic field lines, and contributes to the inward transport. The ion heat diffusivity due to the curvature drift resonance is obtained in the form modified gyro-Bohm coefficient, and is compared with experimentally observed one in CHS Heliotron. (author).}
place = {Japan}
year = {1993}
month = {May}
}