An ion-trap phonon laser

CLEO/Europe - EQEC 2009 - European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference Pub Date : 2009-06-14 DOI:10.1109/CLEOE-EQEC.2009.5192335

K. Vahala, M. Herrmann, S. Knunz, V. Batteiger, G. Saathoff, T. Hansch, T. Udem

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Abstract

Cooling of atoms and ions [1,2] using a red-detuned laser has had a profound impact on science and technology [3–5]. In this work simultaneous laser cooling and blue-detuned laser pumping of a Mg+ ion in a Paul trap is studied. Blue-detuned pumping is conventionally referred to as the heating regime, and in early work, remarkably complex behaviors (bistability and limit cycles) have been associated with this regime [6,7]. These behaviors have so far not been fully explained. Here, it is shown that blue-detuned pumping, as opposed to heating, causes stimulated emission of center-of-mass phonons, leading to coherent oscillatory motion of the ion in analogy with a laser. Mechanical amplification is calculated as well as the threshold pumping condition for oscillation. A single ion in a linear radio-frequency trap is studied to verify these predictions (figure 1 left panel). Blue-detuned pumping of the magnesium D2 transition at 279.6 nm provides amplification along the long axis of the ion trap so as to excite only axial oscillations. A slightly off-axis, red-detuned beam cools the center-of-mass motion to approximately 1 mK. The experimental arrangement is identical to that detailed in ref. [8].

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离子阱声子激光器

利用红失谐激光冷却原子和离子[1,2]对科学技术产生了深远的影响[3-5]。本文研究了在保罗阱中同时进行激光冷却和蓝色失谐激光抽运Mg+离子。蓝调谐泵浦通常被称为加热状态，在早期的工作中，非常复杂的行为(双稳态和极限环)与此状态有关[6,7]。到目前为止，这些行为还没有得到充分的解释。在这里，它表明，蓝色失谐泵浦，而不是加热，引起受激发射的质心声子，导致离子的相干振荡运动类似于激光。计算了振动的机械放大和阈值泵送条件。研究线性射频阱中的单个离子以验证这些预测(图1左面板)。在279.6 nm处，镁D2跃迁的蓝失谐泵浦提供了沿离子阱长轴的放大，从而只激发轴向振荡。一个稍微离轴的红失调谐光束将质心运动冷却到大约1mk。实验安排与文献[8]中的详细安排相同。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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CLEO/Europe - EQEC 2009 - European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference

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