Mechanical Resonances of Mobile Impurities in a One-Dimensional Quantum Fluid

Thomas L. Schmidt; Giacomo Dolcetto; Christopher J. Pedder; Karyn Le Hur; Peter P. Orth

doi:10.1103/PhysRevLett.123.075302

Mechanical Resonances of Mobile Impurities in a One-Dimensional Quantum Fluid

Thomas L. Schmidt
, Giacomo Dolcetto
, Christopher J. Pedder
, Karyn Le Hur
, Peter P. Orth

University of Luxembourg
Iowa State University
Ames Laboratory

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

Abstract

We study a one-dimensional interacting quantum liquid hosting a pair of mobile impurities causing backscattering. We determine the effective retarded interaction between the two impurities mediated by the liquid. We show that for strong backscattering this interaction gives rise to resonances and antiresonances in the finite-frequency mobility of the impurity pair. At the antiresonances, the two impurities remain at rest even when driven by a (small) external force. At the resonances, their synchronous motion follows the external drive in phase and reaches maximum amplitude. Using a perturbative renormalization group analysis in quantum tunneling across the impurities, we study the range of validity of our model. We predict that these mechanical antiresonances are observable in experiments on ultracold atom gases confined to one dimension.

Original language	English
Article number	075302
Journal	Physical Review Letters
Volume	123
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevLett.123.075302
Publication status	Published - 13 Aug 2019

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title = "Mechanical Resonances of Mobile Impurities in a One-Dimensional Quantum Fluid",

abstract = "We study a one-dimensional interacting quantum liquid hosting a pair of mobile impurities causing backscattering. We determine the effective retarded interaction between the two impurities mediated by the liquid. We show that for strong backscattering this interaction gives rise to resonances and antiresonances in the finite-frequency mobility of the impurity pair. At the antiresonances, the two impurities remain at rest even when driven by a (small) external force. At the resonances, their synchronous motion follows the external drive in phase and reaches maximum amplitude. Using a perturbative renormalization group analysis in quantum tunneling across the impurities, we study the range of validity of our model. We predict that these mechanical antiresonances are observable in experiments on ultracold atom gases confined to one dimension.",

author = "Schmidt, \{Thomas L.\} and Giacomo Dolcetto and Pedder, \{Christopher J.\} and \{Le Hur\}, Karyn and Orth, \{Peter P.\}",

note = "Publisher Copyright: {\textcopyright} 2019 American Physical Society.",

year = "2019",

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doi = "10.1103/PhysRevLett.123.075302",

language = "English",

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AU - Schmidt, Thomas L.

AU - Dolcetto, Giacomo

AU - Pedder, Christopher J.

AU - Le Hur, Karyn

AU - Orth, Peter P.

PY - 2019/8/13

Y1 - 2019/8/13

N2 - We study a one-dimensional interacting quantum liquid hosting a pair of mobile impurities causing backscattering. We determine the effective retarded interaction between the two impurities mediated by the liquid. We show that for strong backscattering this interaction gives rise to resonances and antiresonances in the finite-frequency mobility of the impurity pair. At the antiresonances, the two impurities remain at rest even when driven by a (small) external force. At the resonances, their synchronous motion follows the external drive in phase and reaches maximum amplitude. Using a perturbative renormalization group analysis in quantum tunneling across the impurities, we study the range of validity of our model. We predict that these mechanical antiresonances are observable in experiments on ultracold atom gases confined to one dimension.

AB - We study a one-dimensional interacting quantum liquid hosting a pair of mobile impurities causing backscattering. We determine the effective retarded interaction between the two impurities mediated by the liquid. We show that for strong backscattering this interaction gives rise to resonances and antiresonances in the finite-frequency mobility of the impurity pair. At the antiresonances, the two impurities remain at rest even when driven by a (small) external force. At the resonances, their synchronous motion follows the external drive in phase and reaches maximum amplitude. Using a perturbative renormalization group analysis in quantum tunneling across the impurities, we study the range of validity of our model. We predict that these mechanical antiresonances are observable in experiments on ultracold atom gases confined to one dimension.

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DO - 10.1103/PhysRevLett.123.075302

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VL - 123

JO - Physical Review Letters

JF - Physical Review Letters

IS - 7

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ER -

Mechanical Resonances of Mobile Impurities in a One-Dimensional Quantum Fluid

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