1. Observation and particle simulation of vaporized W, Mo, and Be in PISCES-B plasma for vapor-shielding studies
- Author
-
K. Ibano, D. Nishijima, J.H. Yu, M.J. Baldwin, R.P. Doerner, T. Takizuka, H.T. Lee, and Y. Ueda
- Subjects
Nuclear engineering. Atomic power ,TK9001-9401 - Abstract
Interactions of Tungsten (W), Molybdenum (Mo), and Beryllium (Be) vapors with a steady-state plasma were studied by the PISCES-B liner plasma experiments as well as Particle-In-Cell (PIC) simulations for the understanding of vapor-shielding phenomena. Effective cooling of the plasma by laser-generated Be vapor was observed in PISCES-B. On the other hand, no apparent cooling was observed for W and Mo vapors. The PIC simulation explains these experimental observations of the difference between low-Z and high-Z vapors. Decrease of electron temperature due to the vapor ejection was observed in case of a simulation of the Be vapor. As for the W vapor, it was found that the plasma cooling is localized only near the wall at a higher electron density plasma (∼1019m−3). On the other hand, the appreciable plasma cooling can be observed in a lower density plasma (∼1018m−3) for the W vapor. Keywords: Vapor shielding, Plasma-vapor interaction, Particle-in-cell simulation
- Published
- 2017
- Full Text
- View/download PDF