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Super-resolved Imaging of a Single Cold Atom on a Nanosecond Timescale

Zhong-Hua Qian, Jin-Ming Cui, Xi-Wang Luo, Yong-Xiang Zheng, Yun-Feng Huang, Ming-Zhong Ai, Ran He, Chuan-Feng Li, Guang-Can Guo

2021Physical Review Letters17 citationsDOIOpen Access PDF

Abstract

In cold atomic systems, fast and high-resolution microscopy of individual atoms is crucial, since it can provide direct information on the dynamics and correlations of the system. Here, we demonstrate nanosecond-scale two-dimensional stroboscopic pictures of a single trapped ion beyond the optical diffraction limit, by combining the main idea of ground-state depletion microscopy with quantum-state transition control in cold atoms. We achieve a spatial resolution up to 175 nm using a NA=0.1 objective in the experiment, which represents a more than tenfold improvement compared with direct fluorescence imaging. To show the potential of this method, we apply it to observe the secular motion of the trapped ion; we demonstrate a temporal resolution up to 50 ns with a displacement detection sensitivity of 10 nm. Our method provides a powerful tool for probing particle positions, momenta, and correlations, as well as their dynamics in cold atomic systems.

Topics & Concepts

NanosecondUltracold atomTemporal resolutionMaterials scienceDiffractionAtomic physicsMicroscopyDisplacement (psychology)Image resolutionResolution (logic)IonDynamics (music)Molecular physicsAtom (system on chip)PhysicsParticle (ecology)StroboscopeOpticsFluorescenceMean squared displacementEnergetic neutral atomOptical microscopeTracking (education)Quantum optics and atomic interactionsCold Atom Physics and Bose-Einstein CondensatesQuantum Information and Cryptography