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TRAPPED ULTRACOLD MOLECULAR IONS: CANDIDATES FOR AN OPTICAL MOLECULAR CLOCK FOR A FUNDAMENTAL PHYSICS MISSION IN SPACE

机译：被困超克分子离子：用于光学分子时钟的候选者，用于太空的空间

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Narrow ro-vibrational transitions in ultracold molecules are excellent candidates for frequency references in the near-IR to visible spectral domain and interesting systems for fundamental tests of physics, in particular for a satellite test of the gravitational redshift of clocks. We have performed laser spectroscopy of several ro-vibrational overtone transitions v=0 → v=4 in HD+ ions at around 1.4 μm. 1+1 REMPD was used as a detection method, followed by measurement of the number of remaining molecules. The molecular ions were stored in a linear radiofrequency trap and cooled to millikelvin temperatures, by sympathetic cooling using laser-cooled Be+ ions simultaneously stored in the same trap.

机译：Ultracold分子中的窄RO振动过渡是近红外的频率参考的优异候选者，以可见光谱域和物理学测试基本测试的有趣系统，特别是对于时钟引力射频的卫星测试。我们已经在HD +离子中执行了几个RO振动泛音过渡的激光光谱v = 0→v = 4，约为1.4μm。 1 + 1 RemPD用作检测方法，然后测量剩余分子的数量。将分子离子储存在线性射频阱中，并通过同时储存在同一陷阱中的激光冷却的BE +离子来冷却至Millikelvin温度。

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《International Conference on Space Optics》|2006年||共5页
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B. Roth; J. Koelemeij; H.Daerr; I. Ernsting; S. Jorgensen; M. Okhapkin; A. Wicht; A. Nevsky; S.Schiller;
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4. TRAPPED ULTRACOLD MOLECULAR IONS: CANDIDATES FOR AN OPTICAL MOLECULAR CLOCK FOR A FUNDAMENTAL PHYSICS MISSION IN SPACE [C] . B. Roth, J. Koelemeij, H.Daerr, International Conference on Space Optics;ESA/CNES ICSO . 2006

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7. Trapped ultracold molecular ions: candidates for an optical molecular clock for a fundamental physics mission in space [O] . B. Roth, J. Koelemeij, H. Daerr, 2017

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8. Ultracold Molecules in Optical Lattices: Efficient Production and Application to Molecular Clocks. [R] . Zelevinsky, T. 2015

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TRAPPED ULTRACOLD MOLECULAR IONS: CANDIDATES FOR AN OPTICAL MOLECULAR CLOCK FOR A FUNDAMENTAL PHYSICS MISSION IN SPACE

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