Two-Dimensional Numerical Simulation of Ion Collection from Pulsed Laser Induced Plasma.
スポンサーリンク
概要
- 論文の詳細を見る
The process of ion collection from a plasma produced between parallel plates by pulsed lasers was simulated with a two-dimensional numerical code. The trajectories and velocities of ions in the electric field are calculated using Newton's equation of motion. Assuming the Boltzmann relation for electrons, the electric field is calculated by solving numerically the Poisson equation. The numerical results for the time development of the ion collection are shown to be in good agreement with experimental results.
- 一般社団法人 日本原子力学会の論文
著者
-
Ogura Koichi
Japan Atomic Energy Research Institute
-
Shibata Takemasa
Japan Atomic Energy Research Institute
-
KABURAKI Hideo
Japan Atomic Energy Research Institute
関連論文
- Characterization of Gadolinium Plasma in Gadolinium Vapor at High-Rate Evaporation by Electron Beam Heating
- Charge Transfer Cross Section for Gadolinium
- Initial Plasma Density Dependence of Kinetic Energy of Ions Collected on Electrode
- Ion Collection from Resonance-Photoionized Plasma by Applying Radio-Frequency Voltage
- Symmetric Charge Transfer of Gadolinium and Neodymium
- Measurement of Metastable Population in Gadolinium Atomic Beam by Resonance Photoionization
- SYMMETRIC CHARGE TRANSFER IN URANIUM ION-ATOM COLLISIONS
- Numerical Simulation for Metastable States' Deexcitation in Electron Beam Evaporation Process
- Leakage flow characteristics of seal mechanism for HTGR core support blocks.
- Two-Dimensional Numerical Simulation of Ion Collection from Pulsed Laser Induced Plasma.