Two-Photon Ionization of Excited Cesium Atoms by Ruby Laser Light
スポンサーリンク
概要
- 論文の詳細を見る
The probabilities of the two-photon ionization of cesium atoms by ruby laserlight from 6p. 7., 6p.7., 5d.7. and 5d 5 7. excited states were calculated. The densitiesof the excited atoms in the cesium discharge tube were estimated from the meas-ured density and temperature of electrons. The calculated increases of the electrondensity show good agreement with the experimental results.
- 社団法人日本物理学会の論文
- 1978-07-15
著者
-
Ohno Toshihiko
Department Of Electrical Engineering Faculty Of Engineering Nagoya University
-
YAMADA Jun
Aichi Institute of Technology
-
Okuda Takayoshi
Department Of Electrical Engineering Faculty Of Engineering Nagoya University
関連論文
- Spectroscopical Measurements of Ablation Plasma Generated by Excimer Laser from Functionally Graded Materials
- Two-Photon Ionization of Cesium and Sodium Vapors
- Hydrogen-Reduced Carbonization by Acetylene Discharges
- Radial Distributions of Z-Current and Electron Density in a Screw-Pinch Discharge
- Asymmetric Sidebands of Low Frequency Waves in a Current Carrying Plasma
- Excitation and Damping of Continuous Pseudo Acoustic and Ion Waves in a Plasma
- Ballistic Phase Mixing of Continuous Pseudo Waves in a Plasma
- Ion Wave Damping in a Nonuniform Plasma
- Ion Wave Damping in Nonuniform Plasma
- Mode Conversion and Electron Heating by Oblique Injection of the Ordinary Mode into Over-Dense Plasma
- Electron Heating by Oblique Injection of Ordinary Mode into Overdense Plasma
- Characteristics of Electron Density in Ablation Plasma Generated from Functionally Graded Material in Excimer Laser Processing
- Ionization Mechanism of Cesium Plasma Produced by Irradiation of Dye Laser
- Length of Laser-Produced Dense Plasma in High Pressure Argon Gases
- Interaction of Laser Blow-Off Blob with a Low-Pressure Gas Discharge
- Effect of Magnetic Shaping on the Helical Instability
- Equivalent Circuit Model and Magnetic Field Diffusion Equation in the Tokamak Simulation
- Positional Behaviour of the Plasma Column in a Shell-Less Octopole Tokamak
- Equilibrium in a Multipole Tokamak
- Velocity Space Diffusion of High Energy Ions Induced by a Lower Hybrid Wave in a Nonuniform Magnetic Field
- Effects of Lower Hybrid Wave Heating on Alpha-Particle Confinement in a Tokamak
- Effect of Lower Hybrid Wave Heating on Alpha-Particle Dynamics
- Pressure Dependence of Carbon Film Coating by a Toroidal Methane Discharge
- Relativistic Corrections to the Spectrum of Scattered Light from a High Temperature Plasma
- Equilibrium and Current Distribution of Toroidal Plasma in Axially Symmetric System
- Plasma-Induced Arc and Its Plasma Response in a Toroidal Device
- Horizontal Plasma Position Control System for a Tokamak Using Modern Optimal Control Theory
- Compact Antennas for Lower Hybrid Wave Heating
- Physical Properties of Laser-Produced Dense Plasma in High-Pressure Argon Gases
- Development Mechanism of Laser Spark in High Pressure Argon Gases
- Monitoring of Radiation and Impurity Transport in HYBTOK-I Plasma
- Alumina Loaded Antenna for Lower Hybrid Wave Heating
- Effict of Lower Hybrid Heating on Fast Ion Behavior in a Tokamak
- Effects of Diaphragm on the Current Distribution and Stability in the Screw-Pinch Discharge
- Impedance of a Partially Ionized Cecium Plasma
- Collapse of a Plasma Column and Its Suppression in a Linear Screw-Pinch
- Theory of Two-Photon Excitation and Three-Photon Ionization of Atom by Laser Light
- Relativistic Correction to the Electron Density Measured by Lase Light Scattering
- Production and Physical Properties of Cesium Plasma by Resonance Absorption
- A Role of Excited States in Collisional-Radiative Model for Non-Equilibrium Cesium Plasma
- Multi-Photon Ionization of Excited Atoms in Gaseous Discharge by Ruby Laser Light
- Observation of Q Factor of Axially Symmetric Surface Wave Excited in a Cylindrical Cavity with a Magnetized Plasma
- Theory of Multiphoton Ionization of Gases by Ruby Laser
- Expansion Mechanism of Cesium Plasma Produced by Irradiation of Laser Light
- Plasma Production from a Cesium Adsorbed Layer by a Parallel Laser Beam
- Two-Photon Ionization of Excited Cesium Atoms by Ruby Laser Light
- Theory of Three-Photon Ionization and Two-Photon Exciation of Cesium Atom by Ruby Laser Light
- Contribution of Dissociative Recombination to a Cesium Plasma Produced by Resonance Absorption
- Electric Field in a Steady Collision-Dominated Three Components Plasma
- Measurement of Electron Energy Distribution in a Screw-Pinch discharge by Laser Scattering
- 1.3-μm Quantum Dot Distributed Feedback Laser with Half-Etched Mesa Vertical Grating Fabricated by Cl
- Wave Field Structures in a Toroidal Plasma at the Frequency Range of Alfvén Resonance
- 1.3-μm Quantum Dot Distributed Feedback Laser with Half-Etched Mesa Vertical Grating Fabricated by Cl₂ Dry Etching (Special Issue : Microprocesses and Nanotechnology)