Observation of Space-Dependent Rotational Doppler Shifts with a Single Ion Probe

IF 8.1 1区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY
Nicolás A. Nuñez Barreto, Muriel Bonetto, Marcelo A. Luda, Cecilia Cormick, Christian T. Schmiegelow
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引用次数: 0

Abstract

We present an experiment investigating the rotational Doppler effect using a single trapped ion excited by two copropagating vortex laser beams. The setup isolates the azimuthal gradients of the fields, eliminating longitudinal and curvature effects. We provide a detailed characterization of the phenomenon by deterministically positioning a single ion across the beams and measuring fluorescence spectra with sharp “dark resonances” whose features depend on the angular velocity of the ion and the difference of optical orbital angular momentum between the two beams. The interpretation of the measurements is supported by numerical simulations and by a simplified analytical model. Our results reveal key properties of the rotational Doppler effect, showing that it increases approaching the center of the beam and that it is independent of the waist of the beam. This offers insights into the feasibility of superkicks or super-Doppler shifts for sensing and manipulating atomic motion transverse to the beams’ propagation direction.

Abstract Image

利用单离子探针观测空间依赖性旋转多普勒频移
我们展示了一项研究旋转多普勒效应的实验,使用的是由两束共传播涡旋激光激发的单个被困离子。该装置隔离了场的方位梯度,消除了纵向和曲率效应。我们通过确定性地将单个离子横跨光束定位,并测量具有尖锐 "暗共振 "的荧光光谱,详细描述了这一现象,其特征取决于离子的角速度和两束光之间的光学轨道角动量差。测量结果的解释得到了数值模拟和简化分析模型的支持。我们的结果揭示了旋转多普勒效应的关键特性,表明它在接近光束中心时会增加,而且与光束腰部无关。这使我们深入了解了利用超踢或超多普勒频移来感知和操纵横向于光束传播方向的原子运动的可行性。
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
Physical review letters
Physical review letters 物理-物理:综合
CiteScore
16.50
自引率
7.00%
发文量
2673
审稿时长
2.2 months
期刊介绍: Physical review letters(PRL)covers the full range of applied, fundamental, and interdisciplinary physics research topics: General physics, including statistical and quantum mechanics and quantum information Gravitation, astrophysics, and cosmology Elementary particles and fields Nuclear physics Atomic, molecular, and optical physics Nonlinear dynamics, fluid dynamics, and classical optics Plasma and beam physics Condensed matter and materials physics Polymers, soft matter, biological, climate and interdisciplinary physics, including networks
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