Abstract
2-dimensional modelling of divertor plasma was performed with three types of the divertor geometry configuration. Pumping is effective to reduce neutral recycling to core region in the configuration without baffle. In baffle configuration, a good shielding of neutrals in the divertor region can be achieved. The dome configuration reduces plasma density near the null region and flow shear near the separatrix. (author)
Citation Formats
Ohtsu, Shigeki, and Tanaka, Satoru.
Analysis of particle transport in a gas target divertor.
Japan: N. p.,
1996.
Web.
Ohtsu, Shigeki, & Tanaka, Satoru.
Analysis of particle transport in a gas target divertor.
Japan.
Ohtsu, Shigeki, and Tanaka, Satoru.
1996.
"Analysis of particle transport in a gas target divertor."
Japan.
@misc{etde_489217,
title = {Analysis of particle transport in a gas target divertor}
author = {Ohtsu, Shigeki, and Tanaka, Satoru}
abstractNote = {2-dimensional modelling of divertor plasma was performed with three types of the divertor geometry configuration. Pumping is effective to reduce neutral recycling to core region in the configuration without baffle. In baffle configuration, a good shielding of neutrals in the divertor region can be achieved. The dome configuration reduces plasma density near the null region and flow shear near the separatrix. (author)}
place = {Japan}
year = {1996}
month = {Oct}
}
title = {Analysis of particle transport in a gas target divertor}
author = {Ohtsu, Shigeki, and Tanaka, Satoru}
abstractNote = {2-dimensional modelling of divertor plasma was performed with three types of the divertor geometry configuration. Pumping is effective to reduce neutral recycling to core region in the configuration without baffle. In baffle configuration, a good shielding of neutrals in the divertor region can be achieved. The dome configuration reduces plasma density near the null region and flow shear near the separatrix. (author)}
place = {Japan}
year = {1996}
month = {Oct}
}