Direct measurement of Tan’s contact in a one-dimensional Lieb-Liniger gas

Qi Huang; Hepeng Yao; Xuzong Chen; Laurent Sanchez-Palencia

doi:10.1126/sciadv.adv3727

Direct measurement of Tan’s contact in a one-dimensional Lieb-Liniger gas

Qi Huang
, Hepeng Yao
, Xuzong Chen
, Laurent Sanchez-Palencia

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

Abstract

The Tan contact is a pivotal quantity for characterizing many-body quantum systems, bridging microscopic correlations to macroscopic thermodynamic behavior. It is defined as the weight of universal 1∕k4 momentum tails, but, so far, its direct measurement has been hindered in Bose gases due to interactions strongly altering time-of- flight imaging. Here, we report the first direct measurement of the Tan contact in a strongly correlated Lieb-Liniger gas. Leveraging the one-dimensional geometry of our system, we implement a two-stage expansion scheme, yielding interaction-immune imaging. Our results show good agreement with theoretical predictions and are consistent with a predicted universal scaling law. Our work paves the way for further characterization of the Lieb-Liniger gas across broad interaction regimes and holds promise for extension to other correlated quantum gases in confined geometries.

Original language	English
Article number	eadv3727
Journal	Science Advances
Volume	11
Issue number	40
DOIs	https://doi.org/10.1126/sciadv.adv3727
Publication status	Published - 1 Jan 2025

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abstract = "The Tan contact is a pivotal quantity for characterizing many-body quantum systems, bridging microscopic correlations to macroscopic thermodynamic behavior. It is defined as the weight of universal 1∕k4 momentum tails, but, so far, its direct measurement has been hindered in Bose gases due to interactions strongly altering time-of- flight imaging. Here, we report the first direct measurement of the Tan contact in a strongly correlated Lieb-Liniger gas. Leveraging the one-dimensional geometry of our system, we implement a two-stage expansion scheme, yielding interaction-immune imaging. Our results show good agreement with theoretical predictions and are consistent with a predicted universal scaling law. Our work paves the way for further characterization of the Lieb-Liniger gas across broad interaction regimes and holds promise for extension to other correlated quantum gases in confined geometries.",

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AU - Chen, Xuzong

AU - Sanchez-Palencia, Laurent

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N2 - The Tan contact is a pivotal quantity for characterizing many-body quantum systems, bridging microscopic correlations to macroscopic thermodynamic behavior. It is defined as the weight of universal 1∕k4 momentum tails, but, so far, its direct measurement has been hindered in Bose gases due to interactions strongly altering time-of- flight imaging. Here, we report the first direct measurement of the Tan contact in a strongly correlated Lieb-Liniger gas. Leveraging the one-dimensional geometry of our system, we implement a two-stage expansion scheme, yielding interaction-immune imaging. Our results show good agreement with theoretical predictions and are consistent with a predicted universal scaling law. Our work paves the way for further characterization of the Lieb-Liniger gas across broad interaction regimes and holds promise for extension to other correlated quantum gases in confined geometries.

AB - The Tan contact is a pivotal quantity for characterizing many-body quantum systems, bridging microscopic correlations to macroscopic thermodynamic behavior. It is defined as the weight of universal 1∕k4 momentum tails, but, so far, its direct measurement has been hindered in Bose gases due to interactions strongly altering time-of- flight imaging. Here, we report the first direct measurement of the Tan contact in a strongly correlated Lieb-Liniger gas. Leveraging the one-dimensional geometry of our system, we implement a two-stage expansion scheme, yielding interaction-immune imaging. Our results show good agreement with theoretical predictions and are consistent with a predicted universal scaling law. Our work paves the way for further characterization of the Lieb-Liniger gas across broad interaction regimes and holds promise for extension to other correlated quantum gases in confined geometries.

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Direct measurement of Tan’s contact in a one-dimensional Lieb-Liniger gas

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