Electron Avalanche in Liquids at Strong Electric Fields
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概要
- 論文の詳細を見る
- INSTITUTE OF PURE AND APPLIED PHYSICSの論文
- 1953-03-25
著者
-
Yamanaka Chiyoe
Faculty Of Engineering Osaka University
-
Suita Tokuo
Faculty of Eng., Osaka University
関連論文
- The Interaction between Intense Electron Beam and Plasma
- The Behavior of Plasma Produced by the Intense Electron Beam
- Optimum Condition of Nitrogen Mixing Ratio on TEA-Type CO_2-N_2 Laser
- Heating of High z Plasma by Laser
- Target Heating by an Intense Relativistic Electron Beam
- Electric Conduction in Ionic Crystals (Par I)
- The Behaviors of Spikes of a Q Varying Ruby Laser
- The Relation between the Spikes and the Q Spoiling Time in a Ruby Laser
- Dielectric Dispersions of Alkali Halide Crystals.
- Density Measurements of the Laser Produced Plasma by Lase Light Scattering
- A Simulation of Space Plasma by Laser Produced Plasma
- Relation between the Transient Laser Oscillations and the Plasma Quantities in a He-Ne Gaseous Laser
- The Characteristics of the Discharges in the Crossed Electric and Magnetic Field
- Electron Avalanche and Dielectric Breakdown in Solids II
- Pressure Dependent Characteristics of an Ork Ridge Type Duoplasmatron Ion Source : I. Discharge Characteristics
- On the Breakdown of Colored KCl
- A Note on the Furry-Wijsmann's Distribution in Case which Contains Electron Trapping
- Precursor Observed in an Electro-Magnetically Driven Shock Tube
- Electret
- GaAs Laser Pumped by Ruby Laser
- Time Lag in Dielectric Breakdown of Single Crystals
- Effects of Mechanical Stress on Dielectric Breakdown of Alkali-Halides II (Time Effect)
- Charge Exchange Loss of High Temperature Plasma Confined by Mirror Magnetic Field
- Breakdown Probability and Time Lag of Single Crystals
- Ambipolar Potential in Magneto-Active Cold Plasma
- Electron Avalanche in Liquids at Strong Electric Fields
- Directional Dielectric Breakdown in Single Crystals
- Electronic Conductivities of Solids in Strong Electric Fields I
- Dielectric Breakdown in Mixed Crystals of KCl and AgCl.
- Current Noise and Dielectric Breakdown in Alkali-halide Crystals.