Abstract
Impurity transport in tokamak plasma is a subject of great importance in present day tokamak experiments. The transport of oxygen as an impurity element in small tokamak was studied theoretically. The viscosity coefficient of oxygen has been calculated in different approximation 13 and 21 moment approximation, taking into consideration {chi}>>1,{chi}{omega}{sub c} {tau}. It was found that in 21 moment approximation additional terms added to the perturbation from equilibrium leads to increase in viscosity coefficients than in 13 moments approximation. 9 figs.
El-Sharif, R N;
Beket, A H
[1]
- Plasma and Nuclear Fusion Department, Nuclear Research Center, Atomic Energy Aurhority, Cairo (Egypt)
Citation Formats
El-Sharif, R N, and Beket, A H.
Behavior of oxygen impurities in tokamak. Vol. 2.
Egypt: N. p.,
1996.
Web.
El-Sharif, R N, & Beket, A H.
Behavior of oxygen impurities in tokamak. Vol. 2.
Egypt.
El-Sharif, R N, and Beket, A H.
1996.
"Behavior of oxygen impurities in tokamak. Vol. 2."
Egypt.
@misc{etde_456174,
title = {Behavior of oxygen impurities in tokamak. Vol. 2}
author = {El-Sharif, R N, and Beket, A H}
abstractNote = {Impurity transport in tokamak plasma is a subject of great importance in present day tokamak experiments. The transport of oxygen as an impurity element in small tokamak was studied theoretically. The viscosity coefficient of oxygen has been calculated in different approximation 13 and 21 moment approximation, taking into consideration {chi}>>1,{chi}{omega}{sub c} {tau}. It was found that in 21 moment approximation additional terms added to the perturbation from equilibrium leads to increase in viscosity coefficients than in 13 moments approximation. 9 figs.}
place = {Egypt}
year = {1996}
month = {Mar}
}
title = {Behavior of oxygen impurities in tokamak. Vol. 2}
author = {El-Sharif, R N, and Beket, A H}
abstractNote = {Impurity transport in tokamak plasma is a subject of great importance in present day tokamak experiments. The transport of oxygen as an impurity element in small tokamak was studied theoretically. The viscosity coefficient of oxygen has been calculated in different approximation 13 and 21 moment approximation, taking into consideration {chi}>>1,{chi}{omega}{sub c} {tau}. It was found that in 21 moment approximation additional terms added to the perturbation from equilibrium leads to increase in viscosity coefficients than in 13 moments approximation. 9 figs.}
place = {Egypt}
year = {1996}
month = {Mar}
}