Absorption spectroscopy of 40Ca atomic beams produced via pulsed laser ablation: a quantitative comparison of Ca and CaTiO3 targets

IF 2 3区物理与天体物理 Q3 OPTICS Applied Physics B Pub Date : 2024-11-12 DOI:10.1007/s00340-024-08332-8

Kevin D. Battles, Brian J. McMahon, Brian C. Sawyer

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Abstract

Pulsed laser ablation is an increasingly prevalent method for fast ion trap loading of various species, however characteristics of the ablation target source material can affect the ion-loading process. One factor which can reduce the atomic flux from a target is oxidation during atmospheric exposure when preparing or making changes to the ion trap vacuum system. Recent work has shown that perovskite ablation targets produce consistent atomic densities even after exposure to atmosphere when compared to elemental source targets. In this work, we directly compare calcium (Ca) and calcium-titanate (CaTiO\(_3\)) ablation targets, characterizing the neutral atomic beam flux using resonant, time-resolved absorption spectroscopy of the 423 nm ¹S₀ \(\rightarrow\) ¹P₁ transition in neutral Ca. We measure the ablation plume longitudinal and transverse temperatures, number density, ion production, and spot lifetime for each target. In addition, we compare the probe laser beam absorption for both targets before and after 21-h of exposure to atmosphere, demonstrating the relative robustness of the CaTiO\(_3\) source.

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通过脉冲激光烧蚀产生的 40Ca 原子束的吸收光谱学：Ca 和 CaTiO3 靶件的定量比较

脉冲激光烧蚀是一种越来越普遍的快速离子阱装载各种物质的方法，但烧蚀靶源材料的特性会影响离子装载过程。在准备或改变离子阱真空系统时，大气暴露过程中的氧化作用是降低靶材原子通量的一个因素。最近的研究表明，与元素源靶相比，即使暴露在大气中，包晶烧蚀靶也能产生一致的原子密度。在这项工作中，我们直接比较了钙（Ca）和钙钛矿（CaTiO\(_3\)）烧蚀靶，利用共振、时间分辨吸收光谱对中性钙中的 423 nm 1S0 \(\rightarrow\) 1P1 转变进行了描述。我们测量了每个目标的烧蚀羽流纵向和横向温度、数量密度、离子产量和光斑寿命。此外，我们还比较了两个目标在大气中暴露 21 小时之前和之后的探针激光束吸收情况，证明了 CaTiO\(_3\) 源的相对稳健性。

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来源期刊

Applied Physics B 物理-光学

CiteScore

4.00

自引率

4.80%

发文量

202

审稿时长

3.0 months

期刊介绍： Features publication of experimental and theoretical investigations in applied physics Offers invited reviews in addition to regular papers Coverage includes laser physics, linear and nonlinear optics, ultrafast phenomena, photonic devices, optical and laser materials, quantum optics, laser spectroscopy of atoms, molecules and clusters, and more 94% of authors who answered a survey reported that they would definitely publish or probably publish in the journal again Publishing essential research results in two of the most important areas of applied physics, both Applied Physics sections figure among the top most cited journals in this field. In addition to regular papers Applied Physics B: Lasers and Optics features invited reviews. Fields of topical interest are covered by feature issues. The journal also includes a rapid communication section for the speedy publication of important and particularly interesting results.