Isochronous Cyclotron with Axially-Symmetric Electric and Magnetic Fields
スポンサーリンク
概要
- 論文の詳細を見る
An electron model of an axially-symmetric isochronous cyclotron was constructed and the beam properties were investigated for the purpose of studying, experimentally, an accelerator using electric and magnetic fields in combination as a guide field. As a model cyclotron of those which accelerate proton beams up to ∼100 MeV, a maximum energy of electrons of 50 KeV (γ〓1.1) was chosen. The isochronous field of the cyclotron was composed of electric and magnetic fields-the electric field having a radial component and the magnetic field having an axial component on the median plane. The electric field was produced by concentrically devided electrodes set on the inside walls of the dees; the magnetic field was produced by using a pair of air-core coils. Electron beams were accelerated up to almost maximum energy. The behavior of the electron beam was in good agreement with computer calculations.
- 社団法人応用物理学会の論文
- 1968-09-05
著者
-
Arikawa Tatsuo
Department of Applied Physics, Faculty of Technology, Tokyo University of Agriculture and Technology
-
Takeda Tatsuoki
Department Of Physics Faculty Of Science University Of Tokyo
-
Takeda Tatsuoki
Department Of Computer Science The University Of Electrocommunications
-
Arikawa Tatsuo
Department Of Physics Faculty Of Science University Of Tokyo
-
Arikawa Tatsuo
Department Of Applied Physics Faculty Of Engineering Tokyo University Of Agriculture And Technology
-
ARIKAWA TATSUO
Departinent of Physics, Faculty of Science, University of Tokyo,
関連論文
- Energy Distributions of Alkali Ions Sputtered from Alkali-Halide Crystals with Energetic Rare Gas Ion Bombardment
- Penning and Dissociative Ionizaions of Methane Molecules in Collisions with Metastable Helium Atoms
- On the Angular Measurement of Scattered Ions with PERFECTRON
- Polarization of Electrons from High Energy Accelerator
- An Electron Model of Axially Symmetric Isochronous Cyclotron
- On the Momentum Compaction in a Cyclic Accelerator
- Dynamical Properties of van der Waals Clusters of Amino-acid Tryptophan Molecule
- Neoclassical MHD Equilibria with Ohmic Current
- REMPI-Doppler Spectroscopy of H Atoms with Tunable VUV Radiation around Lyman α Line
- Fourier Analysis for Quasi-Resonant Oscillatory Yields in Low Energy ISS Experiments
- Ion Scattering Spectroscopy Experiment in Collisions of He^+ Ions with Ta and W Targets
- Formation of Hot Atomic Hydrogen Beam for Surface Diffraction Experiments
- Dynamical Properties of Amino Acid Beam Seeded in Pulsed Supersonic Expansion
- Velocity Distribution in a Short-Pulsed Nozzle Beam Measured by Means of Time-of-Flight Metastable Spectroscopy
- A Low Energy Ion-Molecule Scattering Apparatus
- Multi-Crossed-Beam Method
- Isochronous Cyclotron with Axially-Symmetric Electric and Magnetic Fields
- Computer Simulation of Slow Positron Accumulator
- Measurement of Differential Cross Sections of Argon Ions by Methane Molecules
- Diffractive Scattering Experiment of H Atoms Using Laser and Ion Imaging Techniques
- NONLINEAR EVOLUTION OF FREE-BOUNDARY MODE IN A TOKAMAK
- Rainbow Scattering in Collisions of Low Energy Argon Ions with Methane Molecules
- Electron Model Experiment of Slow Positron Accumulator
- A Study of Perfect Focusing Mass Spectrometer
- Formation of van der Waals Tryptophan Clusters in Seeded Beam Expansion
- Optical Oscillator Strengths of the Resonance Lines of Rare Gases
- Enhancement of Lyman-α Emission for Detection of Diffracted Atomic Hydrogen Beams
- History of Nuclear Fusion Research in Japan
- Optical Spectroscopic Study on Li^+ +Ne Collision
- Excitation of Li(2p) in Collisions of Li^+ with Ar and Kr Atoms
- Energy Spectrum of Sputtered K^+ Ions from KCl Crystals Bombarded with Energetic Rare Gas Ions
- A Study of Hadamard Mass Spectroscopy
- Perfect Focusing Mass Spectrometer
- A Simple Classical Method of Fitting Potential Parameters
- ORIGINAL PAPERS:Crossed Beam Studies of Low Energy Ar+ Ions by Ar Atoms
- On the Approximation of the Classical Deflection Function(速報)
- Detection of Excited Atoms from a Plasma Gun
- Crossed Beam Studies of Low Energy He+ Ions by He Atoms
- Ion Beam Source for Low Energy Ion-Neutral Crossed-Beam Study
- Computer Simulation of Hadamard Beam Spectroscopy
- Measurements of Beam Emittance in Low Energy Ion Source