Diagnosing a two-body state of ultracold atoms with light

Rafa{\l} O{\l}dziejewski; Kazimierz Rz\k{a}\.zewski

arXiv:1707.04030·cond-mat.quant-gas·November 22, 2017

Diagnosing a two-body state of ultracold atoms with light

Rafa{\l} O{\l}dziejewski, Kazimierz Rz\k{a}\.zewski

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TL;DR

This paper presents a microscopic model for diagnosing the two-body wave function of ultracold atoms via light absorption, highlighting how pulse duration influences photon absorption probabilities.

Contribution

It introduces a novel microscopic approach to analyze two-atom states using light absorption, emphasizing the role of pulse properties in the diagnosis process.

Findings

01

Pulse duration significantly affects photon absorption probabilities.

02

The model provides insights into atom-light interaction dynamics.

03

Light absorption can be used to diagnose two-body quantum states.

Abstract

An absorption of a weak pulse by two identical atoms moving in a trap is investigated. Based on atom-light interactions we present a microscopic model of a two-body wave function diagnosis. We study the influence of pulse properties on the results. We show that a pulse duration impact a resulting one-photon and two-photons absorption probabilities significantly.

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