Ultracold Chemistry and its Reaction Kinetics

Florian Richter; Daniel Becker; C\'edric B\'eny; Torben A. Schulze,; Silke Ospelkaus; Tobias J. Osborne

arXiv:1405.6811·quant-ph·May 13, 2015

Ultracold Chemistry and its Reaction Kinetics

Florian Richter, Daniel Becker, C\'edric B\'eny, Torben A. Schulze,, Silke Ospelkaus, Tobias J. Osborne

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TL;DR

This paper explores the reaction kinetics of ultracold chemical processes, highlighting the role of quantum entanglement and chaos in their dynamics and equilibrium behavior.

Contribution

It provides a systematic investigation of ultracold reaction dynamics, emphasizing quantum entanglement and chaos effects, which are novel insights in this regime.

Findings

01

Quantum entanglement influences ultracold reaction equilibrium

02

Hamiltonian chaos affects phase space dynamics in multiple reactions

03

Ultracold reactions exhibit unique kinetic behaviors

Abstract

We study the reaction kinetics of chemical processes occurring in the ultracold regime and systematically investigate their dynamics. Quantum entanglement is found to play a key role in driving an ultracold reaction towards a dynamical equilibrium. In case of multiple concurrent reactions Hamiltonian chaos dominates the phase space dynamics in the mean field approximation.

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