Observation of the Efimovian expansion in scale-invariant Fermi gases

Shujin Deng; Zhe Yu Shi; Pengpeng Diao; Qianli Yu; Hui Zhai; Ran Qi; Haibin Wu

doi:10.1126/science.aaf0666

Observation of the Efimovian expansion in scale-invariant Fermi gases

Shujin Deng
, Zhe Yu Shi
, Pengpeng Diao
, Qianli Yu
, Hui Zhai
, Ran Qi^*
, Haibin Wu

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

77 Scopus citations

Abstract

Scale invariance plays an important role in unitary Fermi gases. Discrete scaling symmetry manifests itself in quantum few-body systems such as the Efimov effect. Here, we report on the theoretical prediction and experimental observation of a distinct type of expansion dynamics for scale-invariant quantum gases. When the frequency of the harmonic trap holding the gas decreases continuously as the inverse of time t, the expansion of the cloud size exhibits a sequence of plateaus. The locations of these plateaus obey a discrete geometric scaling law with a controllable scale factor, and the expansion dynamics is governed by a log-periodic function. This marked expansion shares the same scaling law and mathematical description as the Efimov effect.

Original language	English
Pages (from-to)	371-374
Number of pages	4
Journal	Science
Volume	353
Issue number	6297
DOIs	https://doi.org/10.1126/science.aaf0666
State	Published - 22 Jul 2016
Externally published	Yes

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title = "Observation of the Efimovian expansion in scale-invariant Fermi gases",

abstract = "Scale invariance plays an important role in unitary Fermi gases. Discrete scaling symmetry manifests itself in quantum few-body systems such as the Efimov effect. Here, we report on the theoretical prediction and experimental observation of a distinct type of expansion dynamics for scale-invariant quantum gases. When the frequency of the harmonic trap holding the gas decreases continuously as the inverse of time t, the expansion of the cloud size exhibits a sequence of plateaus. The locations of these plateaus obey a discrete geometric scaling law with a controllable scale factor, and the expansion dynamics is governed by a log-periodic function. This marked expansion shares the same scaling law and mathematical description as the Efimov effect.",

author = "Shujin Deng and Shi, \{Zhe Yu\} and Pengpeng Diao and Qianli Yu and Hui Zhai and Ran Qi and Haibin Wu",

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AU - Deng, Shujin

AU - Shi, Zhe Yu

AU - Diao, Pengpeng

AU - Yu, Qianli

AU - Zhai, Hui

AU - Qi, Ran

AU - Wu, Haibin

PY - 2016/7/22

Y1 - 2016/7/22

N2 - Scale invariance plays an important role in unitary Fermi gases. Discrete scaling symmetry manifests itself in quantum few-body systems such as the Efimov effect. Here, we report on the theoretical prediction and experimental observation of a distinct type of expansion dynamics for scale-invariant quantum gases. When the frequency of the harmonic trap holding the gas decreases continuously as the inverse of time t, the expansion of the cloud size exhibits a sequence of plateaus. The locations of these plateaus obey a discrete geometric scaling law with a controllable scale factor, and the expansion dynamics is governed by a log-periodic function. This marked expansion shares the same scaling law and mathematical description as the Efimov effect.

AB - Scale invariance plays an important role in unitary Fermi gases. Discrete scaling symmetry manifests itself in quantum few-body systems such as the Efimov effect. Here, we report on the theoretical prediction and experimental observation of a distinct type of expansion dynamics for scale-invariant quantum gases. When the frequency of the harmonic trap holding the gas decreases continuously as the inverse of time t, the expansion of the cloud size exhibits a sequence of plateaus. The locations of these plateaus obey a discrete geometric scaling law with a controllable scale factor, and the expansion dynamics is governed by a log-periodic function. This marked expansion shares the same scaling law and mathematical description as the Efimov effect.

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JO - Science

JF - Science

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ER -

Observation of the Efimovian expansion in scale-invariant Fermi gases

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