Observation of Microcanonical Atom Number Fluctuations in a Bose-Einstein Condensate

M. B. Christensen; T. Vibel; A. J. Hilliard; M. B. Kruk; K. Pawłowski; D. Hryniuk; K. Rzążewski; Mick Kristensen; J. J. Arlt

doi:10.1103/PhysRevLett.126.153601

Observation of Microcanonical Atom Number Fluctuations in a Bose-Einstein Condensate

M. B. Christensen, T. Vibel, A. J. Hilliard, M. B. Kruk, K. Pawłowski, D. Hryniuk, K. Rzążewski, Mick Kristensen, J. J. Arlt

Department of Physics and Astronomy - Center for Complex Quantum Systems

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

16 Citations (Scopus)

Abstract

Quantum systems are typically characterized by the inherent fluctuation of their physical observables. Despite this fundamental importance, the investigation of the fluctuations in interacting quantum systems at finite temperature continues to pose considerable theoretical and experimental challenges. Here we report the characterization of atom number fluctuations in weakly interacting Bose-Einstein condensates. Technical fluctuations are mitigated through a combination of nondestructive detection and active stabilization of the cooling sequence. We observe fluctuations reduced by 27% below the canonical expectation for a noninteracting gas, revealing the microcanonical nature of our system. The peak fluctuations have near linear scaling with atom number ΔN0,p2∝N1.134 in an experimentally accessible transition region outside the thermodynamic limit. Our experimental results thus set a benchmark for theoretical calculations under typical experimental conditions.

Original language	English
Article number	153601
Journal	Physical Review Letters
Volume	126
Issue	15
ISSN	0031-9007
DOIs	https://doi.org/10.1103/PhysRevLett.126.153601
Publication status	Published - 12 Apr 2021

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10.1103/PhysRevLett.126.153601Licence: CC BY

https://arxiv.org/abs/2011.08736

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title = "Observation of Microcanonical Atom Number Fluctuations in a Bose-Einstein Condensate",

abstract = "Quantum systems are typically characterized by the inherent fluctuation of their physical observables. Despite this fundamental importance, the investigation of the fluctuations in interacting quantum systems at finite temperature continues to pose considerable theoretical and experimental challenges. Here we report the characterization of atom number fluctuations in weakly interacting Bose-Einstein condensates. Technical fluctuations are mitigated through a combination of nondestructive detection and active stabilization of the cooling sequence. We observe fluctuations reduced by 27% below the canonical expectation for a noninteracting gas, revealing the microcanonical nature of our system. The peak fluctuations have near linear scaling with atom number ΔN0,p2∝N1.134 in an experimentally accessible transition region outside the thermodynamic limit. Our experimental results thus set a benchmark for theoretical calculations under typical experimental conditions.",

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AU - Christensen, M. B.

AU - Vibel, T.

AU - Hilliard, A. J.

AU - Kruk, M. B.

AU - Pawłowski, K.

AU - Hryniuk, D.

AU - Rzążewski, K.

AU - Kristensen, Mick

AU - Arlt, J. J.

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PY - 2021/4/12

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N2 - Quantum systems are typically characterized by the inherent fluctuation of their physical observables. Despite this fundamental importance, the investigation of the fluctuations in interacting quantum systems at finite temperature continues to pose considerable theoretical and experimental challenges. Here we report the characterization of atom number fluctuations in weakly interacting Bose-Einstein condensates. Technical fluctuations are mitigated through a combination of nondestructive detection and active stabilization of the cooling sequence. We observe fluctuations reduced by 27% below the canonical expectation for a noninteracting gas, revealing the microcanonical nature of our system. The peak fluctuations have near linear scaling with atom number ΔN0,p2∝N1.134 in an experimentally accessible transition region outside the thermodynamic limit. Our experimental results thus set a benchmark for theoretical calculations under typical experimental conditions.

AB - Quantum systems are typically characterized by the inherent fluctuation of their physical observables. Despite this fundamental importance, the investigation of the fluctuations in interacting quantum systems at finite temperature continues to pose considerable theoretical and experimental challenges. Here we report the characterization of atom number fluctuations in weakly interacting Bose-Einstein condensates. Technical fluctuations are mitigated through a combination of nondestructive detection and active stabilization of the cooling sequence. We observe fluctuations reduced by 27% below the canonical expectation for a noninteracting gas, revealing the microcanonical nature of our system. The peak fluctuations have near linear scaling with atom number ΔN0,p2∝N1.134 in an experimentally accessible transition region outside the thermodynamic limit. Our experimental results thus set a benchmark for theoretical calculations under typical experimental conditions.

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Observation of Microcanonical Atom Number Fluctuations in a Bose-Einstein Condensate

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