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机译:Lyman-alpha激光冷却抗氢的源
Harvard Univ Dept Phys Cambridge MA 02138 USA;
Jagiellonian Univ Fac Phys Astron &
Appl Comp Sci PL-30059 Krakow Poland;
Forschungzentrum Juelich GmbH D-52425 Julich Germany;
Harvard Univ Dept Phys Cambridge MA 02138 USA;
York Univ Dept Phys &
Astron Toronto ON M3J 1P3 Canada;
Harvard Univ Dept Phys Cambridge MA 02138 USA;
Harvard Univ Dept Phys Cambridge MA 02138 USA;
Colorado State Univ Dept Phys Ft Collins CO 80523 USA;
Harvard Univ Dept Phys Cambridge MA 02138 USA;
Harvard Univ Dept Phys Cambridge MA 02138 USA;
Northwestern Univ Dept Phys &
Astron Evanston IL 60208 USA;
Colorado State Univ Dept Phys Ft Collins CO 80523 USA;
Colorado State Univ Dept Phys Ft Collins CO 80523 USA;
York Univ Dept Phys &
Astron Toronto ON M3J 1P3 Canada;
York Univ Dept Phys &
Astron Toronto ON M3J 1P3 Canada;
Harvard Univ Dept Phys Cambridge MA 02138 USA;
Colorado State Univ Dept Phys Ft Collins CO 80523 USA;
Northwestern Univ Dept Phys &
Astron Evanston IL 60208 USA;
Jagiellonian Univ Fac Phys Astron &
Appl Comp Sci PL-30059 Krakow Poland;
机译:Lyman-alpha激光冷却抗氢的源
机译:通过在汞中四波混合连续产生Lyman-alpha,以激光冷却抗氢
机译:窄带固态vuv相干光源,用于激光冷却氢
机译:低温冷却固态激光器的二极管激光泵浦源
机译:掺铬II-VI激光源的功率定标可行性以及掺铬硒化锌面冷盘激光器的演示。
机译:基于激光冷却原子的明亮聚焦离子束源
机译:通过四波混频在汞中生成连续Lyman-alpha 激光冷却反氢
机译:功率定标可行性或铬掺杂II-VI激光源以及铬掺杂硒化锌面冷盘激光器的演示