Focusing and Guiding Charged Particles using Two-layer Superconducting Tubes : A Theoretical Approach
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概要
- 論文の詳細を見る
- 2002-07-15
著者
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AGOP Maricel
Nuclear and Particle Physics Section, Department of Physics, University of Athens
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IOANNOU Pavios
Nuclear and Particle Physics Section, Department of Physics, University of Athens
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BUZEA Calm
Nuclear and Particle Physics Section, Department of Physics, University of Athens
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MATSUZAWA Hidenori
Faculty of Engineering, Yarnanashi University
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DANILA Radu
Faculty of Engineering and Science Materials, Technical "Gh. Asachi" University
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RAILEANU Tudor
Faculty of Engineering and Science Materials, Technical "Gh. Asachi" University
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Buzea Calm
Nuclear And Particle Physics Section Department Of Physics University Of Athens:insritute Of Technic
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Danila Radu
Faculty Of Engineering And Science Materials Technical "gh. Asachi" University
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Agop Maricel
Nuclear And Particle Physics Section Department Of Physics University Of Athens:department Of Physic
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Ioannou Pavios
Nuclear And Particle Physics Section Department Of Physics University Of Athens
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Raileanu Tudor
Faculty Of Engineering And Science Materials Technical "gh. Asachi" University
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Matsuzawa Hidenori
Faculty Of Engineering Yamanashi University
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Matsuzawa Hidenori
Faculty Of Engineering Yarnanashi University
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Ioannou Pavlos
Nuclear and Particle Physics Section, Department of Physics, University of Athens
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Buzea Calin
Nuclear and Particle Physics Section, Department of Physics, University of Athens
関連論文
- Focusing and Guiding Charged Particles using Two-layer Superconducting Tubes : A Theoretical Approach
- Detection Technique of Negative Ions by Photodetachment in SF_6 Low-Frequency Discharge
- Upper Limits of Electron Beam Currents Focusable with High-T_c Bulk Superconductor Lenses (Supertrons)
- Improved Confinement of Neon Plasma Inside a High-Critical Temperature Superconducting Tube : A Theoretical Approach
- Focal Lengths of High-T_c Sintered Superconducting Lenses (Supertrons) for Intense Electron Beams
- Self-Magnetic Fields of Electron Beams Confined to Bores of High-T_c Sintered Superconducting Pipes
- Cascaded High-T_c Bulk Superconductor Lenses (Supertrons) for Intense Electron Beams
- Experimental Corroboration for a Ferrite-Core Model of High-T_c Bulk Superconductor Lenses (Supertrons)
- Comparison between Powder-Pressed and Melt-Processed Bulk Superconductor Lenses (Supertrons) for Electron Beams
- Observation of Focused Electron Beams inside a High-T_c Bulk Superconductor Lens (Supertrons)
- High-Temperature Superconducting Tl-Ba-Ca-Cu-O Lenses for Relativistic Electron Beams
- Profiles of Relativistic Electron Beams Focused with High-Temperature Superconducting Lenses (Supertrons)
- Focusing of Intense Electron Beams with Novel High-T_c Superconducting Lenses
- High-T_c Superconducting Lenses for Intense Charged Particle Beams and Its Applications to Induction Linacs
- High Pressure Operation of Beam Diodes for Generating Relativistic Electron Beams
- Improved Confinement of Neon Plasma Inside a High-T_c Superconducting Tube
- Double-Layered High-T_C Superconducting Tube Lenses(Supertrons) for Electron Beams
- Focusing and Guiding Charged Particles Using a Superconducting Tube : An Analytical Nonlinear Approach
- Induction Linear Accelerators with High-T_c Bulk Superconductor Lenses
- Focal Lengths of High-T c Sintered Superconducting Lenses (Supertrons) for Intense Electron Beams
- Improved Confinement of Neon Plasma Inside a High-Critical Temperature Superconducting Tube: A Theoretical Approach