Lyman-alpha source for laser cooling antihydrogen

Gabrielse G.; Glowacz B.; Grzonka D.; Hamley C. D.; Hessels E. A.; Jones N.; Khatri G.; Lee S. A.; Meisenhelder C.; Morrison T.; Nottet E.; Rasor C.; Ronald S.; Skinner T.; Storry C. H.; Tardiff E.; Yost D.; Zambrano D. Martinez; Zielinski M.

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Lyman-alpha source for laser cooling antihydrogen

机译：Lyman-alpha激光冷却抗氢的源

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We present a Lyman-alpha laser developed for cooling trapped antihydrogen. The system is based on a pulsed Ti:sapphire laser operating at 729 nm that is frequency doubled using an LBO crystal and then frequency tripled in a Kr/Ar gas cell. After frequency conversion, this system produces up to 5.7 mu W of average power at the Lyman-alpha wavelength. This laser is part of the ATRAP experiment at the antiproton decelerator in CERN. (C) 2018 Optical Society of America

机译：我们提出了一种开发用于冷却被捕获的抗氢性的Lyman-alpha激光器。该系统基于脉冲Ti：在729nm处运行的蓝宝石激光器，其使用Lbo晶体加倍，然后在Kr / Ar气体细胞中增加频率。经过变频后，该系统在Lyman-alpha波长下产生高达5.7μW的平均功率。该激光是CERN中的ANTIPROTON DENELERATOR的ATRAP实验的一部分。（c）2018年光学学会

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《Optics Letters》 |2018年第12期|共4页
作者
Gabrielse G.; Glowacz B.; Grzonka D.; Hamley C. D.; Hessels E. A.; Jones N.; Khatri G.; Lee S. A.; Meisenhelder C.; Morrison T.; Nottet E.; Rasor C.; Ronald S.; Skinner T.; Storry C. H.; Tardiff E.; Yost D.; Zambrano D. Martinez; Zielinski M.;
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作者单位

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;

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正文语种 eng
中图分类计量学;光学;
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专利

1. Lyman-alpha source for laser cooling antihydrogen [J] . Gabrielse G., Glowacz B., Grzonka D., Optics Letters . 2018,第12期

机译：Lyman-alpha激光冷却抗氢的源
2. Continuous Lyman-alpha generation by four-wave mixing in mercury for laser cooling of antihydrogen [J] . D. Kolbe A. Beczkowiak T. Diehl A. Koglbauer A. Mu ¨ llers M. Scheid M. StappelR. Steinborn and J. Walz Canadian Journal of Physics . 2011,第1期

机译：通过在汞中四波混合连续产生Lyman-alpha，以激光冷却抗氢
3. Narrowband solid state vuv coherent source for laser cooling of antihydrogen [J] . J. Mario Michan, Gene Polovy, Kirk W. Madison, Hyperfine Interactions: Journal Devoted to Research in the Border Regions of Solid State, Atomic and Nuclear Physics . 2015,第1a3期

机译：窄带固态vuv相干光源，用于激光冷却氢
4. Diode laser pumping sources for cryogenically cooled solid-state lasers [C] . M. A. Maiorov, I. E. Trofimov Laser Source Technology for Defense and Security IV . 2008

机译：低温冷却固态激光器的二极管激光泵浦源
5. Power scaling feasibility of chromium-doped II-VI laser sources and the demonstration of a chromium-doped zinc selenide face-cooled disk laser. [D] . McKay, Jason B. 2003

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。
6. Bright focused ion beam sources based on laser-cooled atoms [O] . J. J. McClelland, A. V. Steele, B. Knuffman, -1

机译：基于激光冷却原子的明亮聚焦离子束源
7. Continuous Lyman-alpha generation by four-wave mixing in mercury for laser-cooling of antihydrogen [O] . Kolbe, D., Beczkowiak, A., Diehl, T., 2010

机译：通过四波混频在汞中生成连续Lyman-alpha 激光冷却反氢
8. Power Scaling Feasibility or Chromium-Doped II-VI Laser Sources and the Demonstration of a Chromium-Doped Zinc Selenide Face-Cooled Disk Laser [R] . McKay, J. B. 2002

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

Lyman-alpha source for laser cooling antihydrogen

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