Litcius/Paper detail

<i>In Situ</i> Imaging of a Single-Atom Wave Packet in Continuous Space

Joris Verstraten, Kunlun Dai, Maxime Dixmerias, Bruno Peaudecerf, Tim de Jongh, Tarik Yefsah

2025Physical Review Letters22 citationsDOI

Abstract

We report on the imaging of the in situ spatial distribution of deterministically prepared single-atom wave packets as they expand in a plane, finding excellent agreement with the scaling dynamics predicted by the Schrödinger equation. Our measurement provides a direct and quantitative observation of the textbook free expansion of a one-particle Gaussian wave packet, which we believe has no equivalent in the existing literature. Second, we utilize these expanding wave packets as a benchmark to develop a protocol for the controlled projection of a spatially extended wave function from continuous space onto the sites of a deep optical lattice and subsequent single-atom imaging using quantum gas microscopy techniques. By probing the square modulus of the wave function for various lattice ramp-up times, we show how to obtain a near-perfect projection onto lattice sites. Establishing this protocol represents a crucial prerequisite to the realization of a quantum gas microscope for continuum physics. The method demonstrated here for imaging a wave packet whose initial extent greatly exceeds the pinning lattice spacing, is designed to be applicable to the many-body wave function of interacting systems in continuous space, promising a direct access to their microscopic properties, including spatial correlation functions up to high order and large distances.

Topics & Concepts

In situWave packetSpace (punctuation)Atom (system on chip)Network packetPhysicsAtomic physicsMaterials scienceComputer scienceEmbedded systemOperating systemMeteorologyComputer networkCold Atom Physics and Bose-Einstein CondensatesAtomic and Subatomic Physics ResearchQuantum optics and atomic interactions