Thermal Conductivity in a Laser-Driven Pellet
スポンサーリンク
概要
- 論文の詳細を見る
The phenomena appearing in a laser-driven pellet of a collisionless plasma are numerically simulated on the basis of the one-dimensional Vlasov-Poisson equations. The results show that electrons are trapped by the electric fields induced in the region where the temperature gradient exists. This trap of electrons causes a remarkable decrease in the coefficient of the electron thermal conductivity from the value given by Spitzer's formula. Induced magnetic fields will also take part in reducing the thermal conduction in the pellet.
- 核融合科学研究所の論文
著者
-
Murakami H.
Research Information Center, Institute of Plasma Physics, Nagoya University
-
Yabe T.
Research Information Center, Institute of Plasma Physics, Nagoya University
-
Niu K.
Research Information Center Institute Of Plasma Physics Nagoya University
-
Niu K.
Research Information Center Institute Of Plasma Physics Nagoya University:(present Address)tokyo Ins
関連論文
- Deflagration Wave Formed by Ion Beam : Part II. In Spherical Target
- Deflagration Wave Formed by Ion Beam : Part I. In Slab Target
- Sausage Instability of Z-Discharged Plasma Channel in LIB-Fusion Device
- Formation of Z-Discharged Plasma Channel in LIB-Fusion Device
- Anomalous Viscosity in Turbulent Plasma due to Electromagnetic Instability. II.
- Anomalous Viscosity due to Weak Turbulence in Imploding Target Plasma
- Anomalous Viscosity in Turbulent Plasma due to Electromagnetic Instability. I.
- Electromagnetic instability and stopping power of plasma for relativistic electron beams
- Possibility of Stable Implosion of Structured Pellet II
- Anomalous Deceleration of Light Ion Beam in Plasma of Inertial Confinement Fusion
- Numerical Analysis on Implosion of Laser-Driven Target Plasma
- Thermal Conductivity in a Laser-Driven Pellet
- Electron-Flux Limitation Due to Ion Acoustic Instability
- Possibility of Stable Implosion of Structured Pellet I
- Numerical Analysis on Stability of Laser-Driven-Pellet Implosion
- Thermal-flux reduction by electromagnetic instabilities
- Analytical Model for Super-Compression of Multi-Structured Pellet