Dynamical Fractal in Quantum Gases with Discrete Scaling Symmetry

Chao Gao; Hui Zhai; Zhe Yu Shi

doi:10.1103/PhysRevLett.122.230402

Dynamical Fractal in Quantum Gases with Discrete Scaling Symmetry

Chao Gao
, Hui Zhai
, Zhe Yu Shi

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

11 Scopus citations

Abstract

Inspired by the similarity between the fractal Weierstrass function and quantum systems with discrete scaling symmetry, we establish general conditions under which the dynamics of a quantum system will exhibit fractal structure in the time domain. As an example, we discuss the dynamics of the Loschmidt amplitude and the zero-momentum occupation of a single particle moving in a scale invariant 1/r2 potential. In order to show these conditions can be realized in ultracold atomic gases, we perform numerical simulations with practical experimental parameters, which shows that the dynamical fractal can be observed in realistic timescales. The predication can be directly verified in current cold atom experiments.

Original language	English
Article number	230402
Journal	Physical Review Letters
Volume	122
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevLett.122.230402
State	Published - 12 Jun 2019
Externally published	Yes

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10.1103/PhysRevLett.122.230402

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title = "Dynamical Fractal in Quantum Gases with Discrete Scaling Symmetry",

abstract = "Inspired by the similarity between the fractal Weierstrass function and quantum systems with discrete scaling symmetry, we establish general conditions under which the dynamics of a quantum system will exhibit fractal structure in the time domain. As an example, we discuss the dynamics of the Loschmidt amplitude and the zero-momentum occupation of a single particle moving in a scale invariant 1/r2 potential. In order to show these conditions can be realized in ultracold atomic gases, we perform numerical simulations with practical experimental parameters, which shows that the dynamical fractal can be observed in realistic timescales. The predication can be directly verified in current cold atom experiments.",

author = "Chao Gao and Hui Zhai and Shi, \{Zhe Yu\}",

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AU - Zhai, Hui

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N2 - Inspired by the similarity between the fractal Weierstrass function and quantum systems with discrete scaling symmetry, we establish general conditions under which the dynamics of a quantum system will exhibit fractal structure in the time domain. As an example, we discuss the dynamics of the Loschmidt amplitude and the zero-momentum occupation of a single particle moving in a scale invariant 1/r2 potential. In order to show these conditions can be realized in ultracold atomic gases, we perform numerical simulations with practical experimental parameters, which shows that the dynamical fractal can be observed in realistic timescales. The predication can be directly verified in current cold atom experiments.

AB - Inspired by the similarity between the fractal Weierstrass function and quantum systems with discrete scaling symmetry, we establish general conditions under which the dynamics of a quantum system will exhibit fractal structure in the time domain. As an example, we discuss the dynamics of the Loschmidt amplitude and the zero-momentum occupation of a single particle moving in a scale invariant 1/r2 potential. In order to show these conditions can be realized in ultracold atomic gases, we perform numerical simulations with practical experimental parameters, which shows that the dynamical fractal can be observed in realistic timescales. The predication can be directly verified in current cold atom experiments.

UR - https://www.scopus.com/pages/publications/85067301938

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DO - 10.1103/PhysRevLett.122.230402

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JO - Physical Review Letters

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Dynamical Fractal in Quantum Gases with Discrete Scaling Symmetry

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