Os16+ and Ir17+ ions as candidates for accurate optical clocks sensitive to physics beyond the standard model

V. A. Dzuba, V. V. Flambaum
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引用次数: 1

Abstract

We perform detailed calculations of the electronic structure of the ${\mathrm{Os}}^{16+}$ ion and demonstrate that it has several metastable states which can be used for very accurate optical clocks. The clocks are highly sensitive to manifestations of the physics beyond the standard model, such as time variation of the fine-structure constant $\ensuremath{\alpha}$, interaction with scalar and pseudoscalar (axion) dark matter fields, local Lorentz invariance and local position invariance violations, and interaction of atomic electrons with a nucleus mediated by a new boson. The latter can be studied by analyzing the King plot for isotope shifts and its possible nonlinearities since Os has five stable isotopes with zero nuclear spin. Similar calculations for the ${\mathrm{Ir}}^{17+}$ ion spectra demonstrate good agreement between theory and experiment. This helps to validate the method of the calculations and demonstrate that both ions are excellent candidates for the search for new physics.
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Os16+和Ir17+离子作为对标准模型之外的物理敏感的精确光学时钟的候选者
我们对${\ maththrm {Os}}^{16+}$离子的电子结构进行了详细的计算,并证明它具有几个亚稳态,可以用于非常精确的光学时钟。这些时钟对标准模型之外的物理表现非常敏感,例如精细结构常数$\ensuremath{\alpha}$的时间变化,与标量和伪标量(轴子)暗物质场的相互作用,局部洛伦兹不变性和局部位置不变性的违反,以及原子电子与由新玻色子中介的原子核的相互作用。后者可以通过分析同位素位移的King图及其可能的非线性来研究,因为Os有五个核自旋为零的稳定同位素。对${\mathrm{Ir}}^{17+}$离子谱的类似计算表明理论与实验吻合良好。这有助于验证计算方法,并证明这两种离子都是寻找新物理学的优秀候选者。
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