Life and death of a cold BaRb+ molecule inside an ultracold cloud of Rb atoms

Amir Mohammadi; Artjom Krükow; Amir Mahdian; Markus Deiß; Jesús Pérez-Ríos; Humberto Da Silva; Maurice Raoult; Olivier Dulieu; Johannes Hecker Denschlag

doi:10.1103/PhysRevResearch.3.013196

Life and death of a cold BaRb+ molecule inside an ultracold cloud of Rb atoms

Amir Mohammadi
, Artjom Krükow
, Amir Mahdian
, Markus Deiß
, Jesús Pérez-Ríos
, Humberto Da Silva
, Maurice Raoult
, Olivier Dulieu
, Johannes Hecker Denschlag

Physics and Astronomy

Ulm University
Université Paris-Saclay

Research output: Contribution to journal › Article › peer-review

42 Scopus citations

Abstract

We study the evolution of a cold single BaRb+ molecule while it continuously collides with ultracold Rb atoms. The initially weakly bound molecule can undergo a sequence of elastic, inelastic, reactive, and radiative processes. We investigate these processes by developing methods for discriminating between different ion species, electronic states, and kinetic ion energy ranges. By analyzing the experimental data while taking into account theoretical insights, we obtain a consistent description of the typical trajectory through the manifold of available atomic and molecular states. Monte Carlo simulations describe the measured dynamics well. As a further result, we determine rates for collisional and radiative relaxation as well as photodissociation, spin-flip collisions, and chemical reactions.

Original language	English
Article number	013196
Journal	Physical Review Research
Volume	3
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevResearch.3.013196
State	Published - Feb 26 2021

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10.1103/PhysRevResearch.3.013196

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title = "Life and death of a cold BaRb+ molecule inside an ultracold cloud of Rb atoms",

abstract = "We study the evolution of a cold single BaRb+ molecule while it continuously collides with ultracold Rb atoms. The initially weakly bound molecule can undergo a sequence of elastic, inelastic, reactive, and radiative processes. We investigate these processes by developing methods for discriminating between different ion species, electronic states, and kinetic ion energy ranges. By analyzing the experimental data while taking into account theoretical insights, we obtain a consistent description of the typical trajectory through the manifold of available atomic and molecular states. Monte Carlo simulations describe the measured dynamics well. As a further result, we determine rates for collisional and radiative relaxation as well as photodissociation, spin-flip collisions, and chemical reactions.",

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AU - Mohammadi, Amir

AU - Krükow, Artjom

AU - Mahdian, Amir

AU - Deiß, Markus

AU - Pérez-Ríos, Jesús

AU - Da Silva, Humberto

AU - Raoult, Maurice

AU - Dulieu, Olivier

AU - Hecker Denschlag, Johannes

PY - 2021/2/26

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N2 - We study the evolution of a cold single BaRb+ molecule while it continuously collides with ultracold Rb atoms. The initially weakly bound molecule can undergo a sequence of elastic, inelastic, reactive, and radiative processes. We investigate these processes by developing methods for discriminating between different ion species, electronic states, and kinetic ion energy ranges. By analyzing the experimental data while taking into account theoretical insights, we obtain a consistent description of the typical trajectory through the manifold of available atomic and molecular states. Monte Carlo simulations describe the measured dynamics well. As a further result, we determine rates for collisional and radiative relaxation as well as photodissociation, spin-flip collisions, and chemical reactions.

AB - We study the evolution of a cold single BaRb+ molecule while it continuously collides with ultracold Rb atoms. The initially weakly bound molecule can undergo a sequence of elastic, inelastic, reactive, and radiative processes. We investigate these processes by developing methods for discriminating between different ion species, electronic states, and kinetic ion energy ranges. By analyzing the experimental data while taking into account theoretical insights, we obtain a consistent description of the typical trajectory through the manifold of available atomic and molecular states. Monte Carlo simulations describe the measured dynamics well. As a further result, we determine rates for collisional and radiative relaxation as well as photodissociation, spin-flip collisions, and chemical reactions.

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JO - Physical Review Research

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Life and death of a cold BaRb+ molecule inside an ultracold cloud of Rb atoms

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