Quasi-analytical lineshape for the 1S-2S laser spectroscopy of antihydrogen and hydrogen

Levi Oliveira de Araujo Azevedo, Claudio Lenz Cesar
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Abstract

The accuracy of high precision and fundamental measurements of atomic transition frequencies via laser spectroscopy depends upon fitting the spectral data with a lineshape. With atomic hydrogen and antihydrogen 1S-2S two-photon spectroscopy, computer intensive Monte-Carlo simulations have been used to compute the optical Bloch equations in order to match and interpret the experimental spectra. For the highest resolutions, one tries to minimize saturation effects going to regimes of low excitation probability, where perturbation theory can provide reliable results. Here we describe an analytical approach to the lineshape based on perturbation theory accounting for the AC-Stark shift and ionization. The expressions can be used for beam experiments or integrated over the magnetic field profile for a trapped sample. Theses lineshapes, providing fast results, allow for studies of many systematic effects that influence the accuracy of the determination of the central frequency. This development has relevance to hydrogen beam experiments and to trapped hydrogen and antihydrogen, as developed by the ALPHA collaboration at CERN, for tests of the CPT-symmetry and the highest accuracy measurement on antimatter.
反氢和氢的 1S-2S 激光光谱准分析线形
通过激光光谱法对原子跃迁频率进行高精度和基本测量的准确性取决于光谱数据与线形的拟合。在原子氢和反氢 1S-2S 双光子光谱学中,计算机密集蒙特卡洛模拟被用来计算光学布洛赫方程,以匹配和解释实验光谱。为了获得最高分辨率,我们试图将饱和效应降至最低,从而进入低激发概率状态,在这种状态下,扰动理论可以提供可靠的结果。在此,我们介绍一种基于扰动理论的线形分析方法,它考虑了交流-斯塔克偏移和电离。这些线形提供了快速的结果,允许对影响中心频率测定精度的许多系统效应进行研究。这一发展与氢束流实验以及欧洲核子研究中心的 ALPHA 协作开发的氢和反氢被俘获实验有关,用于测试 CPT 对称性和对反物质的最高精度测量。
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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