Efficient control of high-precision three-dimensional atom localization via probe absorption in a five-level phase-coherent atomic system

IF 2.6 3区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Aniket Banerjee, Pradipta Panchadhyayee and Bibhas Kumar Dutta
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引用次数: 0

Abstract

We propose a new scheme for high-precision three-dimensional (3D) atom localization by observing the spatially modulated absorption of a weak probe field operating in a partially closed-loop dependent five-level atomic system. Different spatial structures of localization patterns are presented by controlling the Rabi frequency, detuning, and field-induced collective phase-coherence with a variety of superposed standing wave field configurations. Our results highlight that 100% detection probability of atom is possible in the present model in many ways with high precision measurement of spatial absorption. It has been shown that, in the presence of standing wave fields, position information of the atom with maximum detection probability can be efficiently controlled by employing the travelling-wave field in the system. In the present work, we note that the maximum detection probability of the atom is attainable with the limit of spatial resolution better than λ/50. The efficacy of the present model is to find its application in atom nanolithography and atom-imaging having importance in quantum information processing.
通过五级相干原子系统中的探针吸收实现高精度三维原子定位的高效控制
我们提出了一种新方案,通过观察在部分闭环依赖的五级原子系统中运行的弱探针场的空间调制吸收,实现高精度三维(3D)原子定位。通过控制各种叠加驻波场配置的拉比频率、失谐和场诱导的集体相干,呈现出不同空间结构的定位模式。我们的研究结果表明,在目前的模型中,通过高精度测量空间吸收,原子的 100% 检测概率是可能的。研究表明,在驻波场存在的情况下,通过在系统中使用游走波场,可以有效地控制原子的位置信息,从而获得最大的探测概率。在本研究中,我们注意到在空间分辨率优于 λ/50 的情况下,原子的最大探测概率是可以达到的。本模型的功效在于将其应用于原子纳米光刻和原子成像,这在量子信息处理中具有重要意义。
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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来源期刊
Physica Scripta
Physica Scripta 物理-物理:综合
CiteScore
3.70
自引率
3.40%
发文量
782
审稿时长
4.5 months
期刊介绍: Physica Scripta is an international journal for original research in any branch of experimental and theoretical physics. Articles will be considered in any of the following topics, and interdisciplinary topics involving physics are also welcomed: -Atomic, molecular and optical physics- Plasma physics- Condensed matter physics- Mathematical physics- Astrophysics- High energy physics- Nuclear physics- Nonlinear physics. The journal aims to increase the visibility and accessibility of research to the wider physical sciences community. Articles on topics of broad interest are encouraged and submissions in more specialist fields should endeavour to include reference to the wider context of their research in the introduction.
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