Lasing Condition and Plasma Evolution in Fast Capillary Discharge
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概要
- 論文の詳細を見る
- 2003-10-21
著者
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Horioka K
Tokyo Institute Of Technology
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SAKAMOTO N.
Tokyo Institute of Technology
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KONDO K.
Tokyo Institute of Technology
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MASNAVI M.
Tokyo Institute of Technology
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NAKAJIMA M.
Tokyo Institute of Technology
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HOTTA E.
Tokyo Institute of Technology
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HORIOKA K.
Tokyo Institute of Technology
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Horioka K
Department Of Energy Sciences Interdsciplinary Graduate School Of Science And Engineering Tokyo Inst
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Masnavi M.
Department Of Energy Sciences Interdsciplinary Graduate School Of Science And Engineering Tokyo Inst
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Nakajima M
Department Of Energy Sciences Interdsciplinary Graduate School Of Science And Engineering Tokyo Inst
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Hotta E
Department Of Energy Sciences Interdsciplinary Graduate School Of Science And Engineering Tokyo Inst
関連論文
- Beam Dynamics Simulation in Final Beam Bunching of Heavy Ion Inertial Fusion
- Characteristics of Xenon Capillary Z-Pinch Extreme Ultraviolet Lithography Source Driven by Different dI/dt Discharge Current Pulses
- On the Amplification Capability of Ne-like Ar Soft X-ray Laser Generated by Capillary Z-Pinch Discharge
- Focusing of Soft X-ray using a Grazing Incidence Mirror
- Performances of Ne-like Ar Soft X-ray Laser using Capillary Z-Pinch Discharge
- Extreme-ultraviolet Intensity of Discharge-based Lithium Plasma for Lithography
- Characteristics of Extreme Ultraviolet Radiation Conversion Efficiency of Xenon Plasma
- 27pA40P Enhancement of EUV Emission in Fast Heating Plasma
- Theoretical Consideration on Final Beam Bunching for Heavy Ion Inertial Fusion
- PULSED ION SOURCE WITH CRYOGENIC ANODE AND PLASMA CHANNEL INITIATION BY LASER EXCITATION