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Autori principali: Maki, Jeff, Zhou, Fei
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2305.19061
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author Maki, Jeff
Zhou, Fei
author_facet Maki, Jeff
Zhou, Fei
contents Conformal dynamics can appear in quantum gases when the interactions are fine tuned to be scale symmetric. One well-known example of such a system is a three-dimensional Fermi gas at a Feshbach resonance. In this letter, we illustrate how conformal dynamics can also emerge in the infrared limit in one-dimensional harmonically trapped Fermi gases, even though the system may not have exactly scale symmetric interactions. The conformal dynamics are induced by strong renormalization effects due to the nearby infrared stable scale invariant interaction. When the system approaches the infrared limit, or when the external harmonic trapping frequency $ω_f \rightarrow 0$, the dynamics are characterized by a unique vanishingly small dissipation rate, $Γ\propto ω_f$, rather than a constant as in generic interacting systems. We also examine the work done in a two-quench protocol, $W$, and the average power $\mathcal{P}$. In one dimension, the average power, $\mathcal{P} \propto ω_f$, becomes vanishingly small in the infrared limit, a signature of emergent conformal dynamics.
format Preprint
id arxiv_https___arxiv_org_abs_2305_19061
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Emergent Infrared Conformal Dynamics in Strongly Interacting Quantum Gases
Maki, Jeff
Zhou, Fei
Quantum Gases
Quantum Physics
Conformal dynamics can appear in quantum gases when the interactions are fine tuned to be scale symmetric. One well-known example of such a system is a three-dimensional Fermi gas at a Feshbach resonance. In this letter, we illustrate how conformal dynamics can also emerge in the infrared limit in one-dimensional harmonically trapped Fermi gases, even though the system may not have exactly scale symmetric interactions. The conformal dynamics are induced by strong renormalization effects due to the nearby infrared stable scale invariant interaction. When the system approaches the infrared limit, or when the external harmonic trapping frequency $ω_f \rightarrow 0$, the dynamics are characterized by a unique vanishingly small dissipation rate, $Γ\propto ω_f$, rather than a constant as in generic interacting systems. We also examine the work done in a two-quench protocol, $W$, and the average power $\mathcal{P}$. In one dimension, the average power, $\mathcal{P} \propto ω_f$, becomes vanishingly small in the infrared limit, a signature of emergent conformal dynamics.
title Emergent Infrared Conformal Dynamics in Strongly Interacting Quantum Gases
topic Quantum Gases
Quantum Physics
url https://arxiv.org/abs/2305.19061