What question did this study set out to answer?

This work aims to analyze the dynamics of the Bose polaron system in a large-volume, high-density setting.

May 28, 2026Open Access

Effective dynamics for the Bose polaron in the large-volume mean-field limit

Puntos clave

This work aims to analyze the dynamics of the Bose polaron system in a large-volume, high-density setting.
Studied a quantum gas of bosons in the presence of an impurity particle.
Applied mean-field scaling with conditions of high density and large volume.
Derived effective dynamics using the translation-invariant Bogoliubov-Fröhlich Hamiltonian.
Established an effective description of dynamics in the limit of large densities and volumes.
Characterized the behavior of bosons in the Bose-Einstein condensate with few excitations.
Confirmed the coupling of quantum excitations to the impurity particle via the derived Hamiltonian.

Resumen

We consider the dynamics of the Bose polaron system, a dense quantum gas consisting of N bosons evolving in R³ in the presence of an impurity particle. The system is studied in the mean-field scaling with initially high density and large volume of the gas. In the initial state, almost all bosons are in the Bose-Einstein condensate, with a few excitations. We derive from the microscopic dynamics, in the joint limit of large densities and volumes, with the constraint ³, the effective description by the translation-invariant Bogoliubov-Fröhlich Hamiltonian, which couples the quantum field of excitations linearly to the impurity particle.

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