Abstract
Steady state operation of tokamaks which is sustained by the DC helicity current drive near edge is studied. The necessary value of the current diffusivity is obtained. Relation between the current diffusivity and the thermal diffusivity, which are governed by the microscopic turbulence, indicates that this requires too large thermal transport for the parameters in present day experiments. (author).
Citation Formats
Itoh, K, Itoh, S, and Fukuyama, A.
Energy transport in the steady state plasma sustained by DC helicity current drive.
Japan: N. p.,
1992.
Web.
Itoh, K, Itoh, S, & Fukuyama, A.
Energy transport in the steady state plasma sustained by DC helicity current drive.
Japan.
Itoh, K, Itoh, S, and Fukuyama, A.
1992.
"Energy transport in the steady state plasma sustained by DC helicity current drive."
Japan.
@misc{etde_10111067,
title = {Energy transport in the steady state plasma sustained by DC helicity current drive}
author = {Itoh, K, Itoh, S, and Fukuyama, A}
abstractNote = {Steady state operation of tokamaks which is sustained by the DC helicity current drive near edge is studied. The necessary value of the current diffusivity is obtained. Relation between the current diffusivity and the thermal diffusivity, which are governed by the microscopic turbulence, indicates that this requires too large thermal transport for the parameters in present day experiments. (author).}
place = {Japan}
year = {1992}
month = {Jan}
}
title = {Energy transport in the steady state plasma sustained by DC helicity current drive}
author = {Itoh, K, Itoh, S, and Fukuyama, A}
abstractNote = {Steady state operation of tokamaks which is sustained by the DC helicity current drive near edge is studied. The necessary value of the current diffusivity is obtained. Relation between the current diffusivity and the thermal diffusivity, which are governed by the microscopic turbulence, indicates that this requires too large thermal transport for the parameters in present day experiments. (author).}
place = {Japan}
year = {1992}
month = {Jan}
}