Quantum Effects at Low Energy Atom-Molecule Interface

TL;DR

This paper analyzes quantum interference effects in ultracold atom-molecule transitions, presenting a formalism based on Fano's theory that is applicable in strong-coupling regimes to explore coherent phenomena at low energies.

Contribution

It introduces a continuum-bound anisotropic dressed state formalism for atom-molecule quantum dynamics within Fano's framework, applicable to photo- and magneto-associative regimes.

Findings

Highlights the significance of Fano effect in ultracold atom-molecule transitions.

Provides a theoretical framework for exploring quantum effects at low energies.

Emphasizes the importance of quantum interference in coherent atom-molecule phenomena.

Abstract

Quantum interference effects in inter-conversion between cold atoms and diatomic molecules are analysed. Within the framework of Fano's theory, continuum-bound anisotropic dressed state formalism of atom-molecule quantum dynamics is presented. This formalism is applicable in photo- and magneto-associative strong-coupling regimes. The significance of Fano effect in ultracold atom-molecule transitions is discussed. Quantum effects at low energy atom-molecule interface are important for exploring coherent phenomena in hither-to unexplored parameter regimes.