Cold chemistry of a single ion in highly dense media: from three-body recombination to molecular photodissociation

Jes\'{u}s P\'{e}rez-R\'{i}os; Amir Mohammadi; Artjom Kr\"{u}kow; Johannes Hecker Denschlag; Humberto da Silva Jr.; Olivier Dulieu

Cold chemistry of a single ion in highly dense media: from three-body recombination to molecular photodissociation

ORAL

Abstract

A single laser cooled Ba$^{+}$ ion is brought in contact with a dense ultracold cloud of Rb atoms held by a dipole trap, leading to molecular formation through three-body recombination. However, the presence of light opens up new and intriguing reaction pathways rendering unexpected reaction products. These novel products are theoretically explained as a consequence of a very efficient vibrational quenching mechanism followed by photodissociation of the molecular ion by the light coming from the atomic dipole trap. Our findings, both theoretical and experimental will help to understand the role of light in cold chemistry experiments and how it limits sympathetic cooling of molecular ions.

May 30, 2018, 12:06 PM – May 30, 2018, 12:18 PM

Authors

Jes\'{u}s P\'{e}rez-R\'{i}os
- School of Natural Sciences and Technology, Universidad del Turabo, Gurabo, PR00778, USA
Amir Mohammadi
- Institut f\"{u}r Quantenmaterie and Center for Integrated Quantum Science and Technology (IQ$^{ST}$ );Universit\"{a}t Ulm; 89069Ulm; Germany
Artjom Kr\"{u}kow
- Institut f\"{u}r Quantenmaterie and Center for Integrated Quantum Science and Technology (IQ$^{ST}$ );Universit\"{a}t Ulm; 89069Ulm; Germany
Johannes Hecker Denschlag
- Institut f\"{u}r Quantenmaterie and Center for Integrated Quantum Science and Technology (IQ$^{ST}$ );Universit\"{a}t Ulm; 89069Ulm; Germany
Humberto da Silva Jr.
- Laboratoire Aim\'{e} Cotton, CNRS/Universit\'{e} Paris-Sud/ENS Cachan, Orsay Cedex, France
Olivier Dulieu
- Laboratoire Aim\'{e} Cotton, CNRS/Universit\'{e} Paris-Sud/ENS Cachan, Orsay Cedex, France