Soft X-Ray Laser Amplification and Plasma Dynamics in Capillary Discharge : Fluids, Plasmas, and Electric Discharges
スポンサーリンク
概要
- 論文の詳細を見る
The optimum conditions for soft x-ray laser amplification through the dynamics of Ar plasma, created by the capillary discharge Z-pinch, have been investigated. The numerical simulation of plasma dynamics was based on magnetohydrodynamic one-dimensional radiation model. The plasma behavior of the implosion-pinch phase was analyzed, taking plasma atomic processes into account. The optimum soft x-ray lasing occurs in the 3s-3p transition in Ne-like Ar plasma. Radiation emission and absorption processes of the resonance line on this plasma were calculated by means of escape probabilities. The temporal and spatial distribution of the density and temperature in plasmas, and the gain of lasing were evaluated at different initial discharge pressures ranging from 300 to 3000 mTorr.
- 社団法人日本物理学会の論文
- 2001-04-15
著者
-
KARASHIMA Shosuke
Department of Electrical Engineering, Science University of Tokyo
-
KOIKE Takahisa
Department of Electrical Engineering, Science University of Tokyo
-
Makiuchi Yoji
Department Of Electrical Engineering Science University Of Tokyo
-
Karashima Shosuke
Department Of Electrical Engineering Faculty Of Engineering Science University Of Tokyo
-
Koike T
Department Of Electrical Engineering Science University Of Tokyo:(present) Department Of Radiologica
-
Koike Takahisa
Department Of Electrical Engineering Science University Of Tokyo
関連論文
- ATOMIC PROCESSES IN DISCHARGE ARGON PLASMAS FOR SOFT X-RAY LASER AMPLIFICATION
- ATOMIC PROCESSES IN CAPILLARY DISCHARGE Z-PINCH PLASMAS FOR SOFT-X-RAY AMPLIFICATION
- Equilibrium Charge States of Incident Uranium Ions with Relativistic Velocity
- Soft X-Ray Laser Amplification and Plasma Dynamics in Capillary Discharge : Fluids, Plasmas, and Electric Discharges
- Collective Model for Conformons in One-Dimensional Molecular Chain
- Ripplon in Superfluid ^4He
- CHARGE EQUILIBRIUM PROCESSES OF ENERGETIC INCIDENT IONS AND THEIR RANGE
- Non-Linear Effects of Molecular Ion Bombardment on Sputtering Yield
- Charge Equilibrium of Energetic Heavy Ions in Gaseous Media : Ideal Atomic Hydrogen Gas