A dynamical Interpretation of Sequential Decay in Reactive Scattering

Francisco Gonzalez Montoya; Christof Jung; Thomas H. Seligman

arXiv:2212.03928·nlin.CD·August 16, 2023·Commun. Nonlinear Sci. Numer. Simul.

A dynamical Interpretation of Sequential Decay in Reactive Scattering

Francisco Gonzalez Montoya, Christof Jung, Thomas H. Seligman

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TL;DR

This paper provides a dynamical explanation for sequential decay in reactive scattering, focusing on trajectory behavior near basin boundaries using a simplified three-particle Calogero-Moser model.

Contribution

It introduces a dynamical interpretation of sequential decay phenomena in reactive scattering, emphasizing the role of basin boundary trajectories.

Findings

01

Trajectories near basin boundaries influence decay sequences.

02

A simplified Calogero-Moser system demonstrates the concept.

03

Dynamical behavior explains observed decay patterns.

Abstract

The topic of this article is a dynamical explanation of the sequential decay in rearrangement scattering. The essential observation is the behaviour of trajectories close to the basin boundary of the breakup channel. As a most simplistic example of demonstration, we use a version of the perturbed three particle Calogero-Moser system in a 1-dimensional position space.

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Taxonomy

TopicsQuantum chaos and dynamical systems · Algebraic structures and combinatorial models · Nonlinear Waves and Solitons