Bloch oscillations in the absence of a lattice

Florian Meinert; Michael Knap; Emil Kirilov; Katharina Jag-Lauber; Mikhail B. Zvonarev; Eugene Demler; Hanns Christoph Nägerl

doi:10.1126/science.aah6616

Bloch oscillations in the absence of a lattice

Florian Meinert
, Michael Knap
, Emil Kirilov
, Katharina Jag-Lauber
, Mikhail B. Zvonarev
, Eugene Demler
, Hanns Christoph Nägerl

Associate Professorship of Collective Quantum Dynamics

University of Innsbruck
Laboratoire de Physique Théorique et Modèles Statistiques
Broad Institute of Harvard University

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

121 Scopus citations

Abstract

The interplay of strong quantum correlations and far-from-equilibrium conditions can give rise to striking dynamical phenomena. We experimentally investigated the quantum motion of an impurity atom immersed in a strongly interacting one-dimensional Bose liquid and subject to an external force. We found that the momentum distribution of the impurity exhibits characteristic Bragg reflections at the edge of an emergent Brillouin zone. Although Bragg reflections are typically associated with lattice structures, in our strongly correlated quantum liquid they result from the interplay of short-range crystalline order and kinematic constraints on the many-body scattering processes in the one-dimensional system. As a consequence, the impurity exhibits periodic dynamics, reminiscent of Bloch oscillations, although the quantum liquid is translationally invariant. Our observations are supported by large-scale numerical simulations.

Original language	English
Pages (from-to)	945-948
Number of pages	4
Journal	Science
Volume	356
Issue number	6341
DOIs	https://doi.org/10.1126/science.aah6616
State	Published - 2 Jun 2017

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abstract = "The interplay of strong quantum correlations and far-from-equilibrium conditions can give rise to striking dynamical phenomena. We experimentally investigated the quantum motion of an impurity atom immersed in a strongly interacting one-dimensional Bose liquid and subject to an external force. We found that the momentum distribution of the impurity exhibits characteristic Bragg reflections at the edge of an emergent Brillouin zone. Although Bragg reflections are typically associated with lattice structures, in our strongly correlated quantum liquid they result from the interplay of short-range crystalline order and kinematic constraints on the many-body scattering processes in the one-dimensional system. As a consequence, the impurity exhibits periodic dynamics, reminiscent of Bloch oscillations, although the quantum liquid is translationally invariant. Our observations are supported by large-scale numerical simulations.",

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T1 - Bloch oscillations in the absence of a lattice

AU - Meinert, Florian

AU - Knap, Michael

AU - Kirilov, Emil

AU - Jag-Lauber, Katharina

AU - Zvonarev, Mikhail B.

AU - Demler, Eugene

AU - Nägerl, Hanns Christoph

PY - 2017/6/2

Y1 - 2017/6/2

N2 - The interplay of strong quantum correlations and far-from-equilibrium conditions can give rise to striking dynamical phenomena. We experimentally investigated the quantum motion of an impurity atom immersed in a strongly interacting one-dimensional Bose liquid and subject to an external force. We found that the momentum distribution of the impurity exhibits characteristic Bragg reflections at the edge of an emergent Brillouin zone. Although Bragg reflections are typically associated with lattice structures, in our strongly correlated quantum liquid they result from the interplay of short-range crystalline order and kinematic constraints on the many-body scattering processes in the one-dimensional system. As a consequence, the impurity exhibits periodic dynamics, reminiscent of Bloch oscillations, although the quantum liquid is translationally invariant. Our observations are supported by large-scale numerical simulations.

AB - The interplay of strong quantum correlations and far-from-equilibrium conditions can give rise to striking dynamical phenomena. We experimentally investigated the quantum motion of an impurity atom immersed in a strongly interacting one-dimensional Bose liquid and subject to an external force. We found that the momentum distribution of the impurity exhibits characteristic Bragg reflections at the edge of an emergent Brillouin zone. Although Bragg reflections are typically associated with lattice structures, in our strongly correlated quantum liquid they result from the interplay of short-range crystalline order and kinematic constraints on the many-body scattering processes in the one-dimensional system. As a consequence, the impurity exhibits periodic dynamics, reminiscent of Bloch oscillations, although the quantum liquid is translationally invariant. Our observations are supported by large-scale numerical simulations.

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VL - 356

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Bloch oscillations in the absence of a lattice

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