New method of large-area DC ion beam formation with multiple electron beams. I. Effect of ion density distribution of source plasma on geometrical shape of plasma boundary.:Effect of Ion Density Distribution of Source Plasma on Geometrical Shape of Plasma
スポンサーリンク
概要
- 論文の詳細を見る
A study was made of the correlation between the focusing of an ion beam and thespatial distribution of the ion density in the source plasma, which determines thegeometrical shape of the plasma boundary, using a duoplasmatron ion source. It wasrevealed that the focusing of the ion beams extracted from a gaseous plasma through alarge-area single aperture is sensitively influenced by the concavity of the plasmaboundary, which concavity varies with the radial density profile of the plasma ions atthe plasma boundary.
- 一般社団法人 日本原子力学会の論文
著者
-
Akimune Hideo
Department Of Nuclear Engineering Faculty Of Engineering Osaka University
-
Nunogaki Masanobu
Department Of Nuclear Engineering Faculty Of Engineering Osaka University
-
Kawanishi Masaharu
Institute Of Scientific And Industrial Research Osaka University
関連論文
- Operational Characteristics of Two-Stage Discharge Ion Source
- Coherent Interactions of a Modulated Electron Beam with a Plasma (HXR-4)
- A High Current and Good Emittance Ion Source
- Coherent Domains in Some Parameter Spaces Inherent in a Beam-Plasma Regime
- Non-Linear Phenomena in Beam-Plasma Interaction
- An Observation on a Non-Linear Effect in Beam-plasma Interaction
- Energy Loss of Low Energy Protons and Deuterons in Evaporated Metallic Films
- Scattering of Low Energy Hydrogen Ions H_, H_ and H_) and Atoms (H_) from Evaporated Metallic Films
- Stopping Cross-Sections of Metallic Films for Projectile of Low Energy Proton
- Secondary Electron Emission Type Neutral Particle Detector
- Stabilization of Flute Instability by High Frequency Field
- Stabilization of Flute Instability by Means of High Frequency Field
- Microinstability of Mirror Confined Energetic Plasma in an R.F. Electric Field
- Excitation and Stabilization of Microinstabilities by R.F. Electric Field
- Effects of an R.F. Electric Field on Microinstability
- Return Current Induced by a Pulsed Electron Beam Propagating into a Netural Gas
- Surface Erosion of Molybdenum by Hydrogen Ion Bombardment
- Neutral-Particle Detector and Spectrometer for Plasma Measurement
- Direct Surface Modification of Zirconium by Reactive Plasma Processing at Elevated Temperatures
- Suppression of Precessional Drift Wave by External Inhomogeneous High Frequency Field
- Injection-Trapping of High Energy Molecular Ions into the Mirror Field with the RF Electric Field (II)
- TSEE Responses of Oxides Energetic Ion Bombardment
- The Progress of Research on Exoelectron Emission and Applications in Japan
- Beam Controllable PIG Ion Source
- Plasma Supply to Extraction Region in High-Current Ion Source
- The Scintillation Process of NaI (Tl)
- New method of large-area DC ion beam formation with multiple electron beams. I. Effect of ion density distribution of source plasma on geometrical shape of plasma boundary.:Effect of Ion Density Distribution of Source Plasma on Geometrical Shape of Plasma
- Experimental determination of collection efficiency of ionization chamber in field of pulsed X-rays.
- New method of large-area DC ion beam formation with multiple electron beams. II. Control of geometrical shape of plasma boundary by means of electron beam injection.:Control of Geometrical Shape of Plasma Boundary by Means of Electron Beam Injection
- Two-stage-discharge ion source.
- Utilizing RF Electric Field for Injection-Trapping High Energy Molecular Ions in Mirror Field, (I)
- Two-Energy-Component Plasma in a Mirror-Torus Hybrid
- Intense and small emittance hydrogen ion beam formation by BPD ion source.