Part Ⅰ 高亮度光陰極電子源 第1章 高亮度光陰極電子源簡介 第2章 節選電子源論文導讀 2.1 布許定理的量子力學表述[PRA 102 (2020)] Quantum mechanical formulation of the Busch theorem 2.2 短波長與長波長激光引起的電子發射:等離子元光陰極設計[JAP 124(2018)] Electron emission by long and short wavelength lasers:Essentials for the design of plasmonic photocathodes 2.3 雙模光陰極電子槍的模擬研究[PRAB 24-02 (2021)] Simulation study of first and second harmonic photocathode bimodal gun 2.4 基於激光生成太赫茲脈衝的相對論束流加速[Nat. Photonics 14 (2020)] Acceleration of relativistic beams using laser-generated terahertz pulses 2.5 相對論性電子束的級聯高梯度太赫茲驅動加速[Nat. Photonics 15(2021)] Cascaded high-gradient terahertz-driven acceleration of relativistic electron beams 2.6 使用多環光陰極在光注入器中產生高頻聚束電子[PRAB 24-05 (2021)] Generation of high-frequency bunched electrons from photoinjector with a multiring photocathode 2.7 激光加速得到低發散角的1 kHz,15 MeV的近單能電子束[PRX 1102(2021)] Laser-Accelerated,Low-Divergence 15-MeV Quasimonenergetic Electron Bunches at 1 kHz 2.8 面向亞10 fs電子衍射的激光-等離子體電子源的概念研究[PRAB 19-02 (2019)] Concept of a laser-plasma-based electron source for sub-10-fs electron diffraction 2.9 拓撲陰極:用超材料控制電子發射的空間電荷極限[PRAB 22-08 (2019)] Topological cathodes: Controlling the space charge limit of electron emission using metamaterials 2.10 用雙臂邁克爾遜干涉儀產生飛秒電子微束團串[PRAB 20-10 (2017)] Generation of a femtosecond electron microbunch train from a photocathode using twofold Michelson interferometer 2.11 射頻電子槍中銅光電陰極的量子效率測量[PAC 93 (1993)] Quantum Efficiency Measurements of a Copper Photocathode in an RF Electron Gun 2.12 高亮度光注入器中的光電陰極時間響應的直接測量[APL 120 (2022)] Direct measurement of photocathode time response in a high-brightness photoinjector 2.13 用於高梯度加速器的激光脈衝整形[NIMA 829 (2016)] Laser pulse shaping for high gradient accelerators 2.14 高亮度電子源的進展[NIMA 907 (2018)] Advances in bright electron sources 2.15 基於低溫超高場射頻光電離子源產生的下一代高亮度電子束[PRAB 22(2019)] Next generation high brightness electron beams from ultrahigh field cryogenic rf photocathode sources 2.16 針對未來光源的陰極的研發[NIMA 622 (2010)] Cathode R & D for future light sources 2.17 產生時域上平頂波形的一種電光技術[Opt. Comm. 284 (2011)] Simple electro-optic technique to generate temporally flat-top laser pulses 2.18 基於雙摺射晶體相干脈衝堆棧產生的皮秒激光脈衝串[OE 27 (2019)] Generation of picosecond pulses with variable temporal profiles and linear polarization by coherent pulse stacking in a birefringent crystal shaper 2.19 用於光陰極射頻電子槍的紫外脈衝整形[NIMA 637 (2010)]
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