Record link: 
http://hdl.handle.net/20.500.12708/222018
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Title: 
Characterizing transport in a quantum gas by measuring Drude weights
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Citation: 
Schüttelkopf, P., Tajik, M., Bazhan, N., Cataldini, F., Ji, S.-C., Schmiedmayer, J., & Møller, F. S. (2025). Characterizing transport in a quantum gas by measuring Drude weights. Science, Article eads8327. https://doi.org/10.1126/science.ads8327
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Publisher DOI: 
10.1126/science.ads8327
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Publication Type: 
Article - Original Research Article
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Language: 
English
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Authors: 
Schüttelkopf, Philipp 
Tajik, Mohammadamin 
Bazhan, Nataliia 
Cataldini, Federica 
Ji, Si-Cong 
Schmiedmayer, Jörg 
Møller, Frederik Skovbo 
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Organisational Unit: 
E141-02 - Forschungsbereich Atom Physics and Quantum Optics 
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Journal: 
Science 
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ISSN: 
0036-8075
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Date (published): 
27-Nov-2025
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Number of Pages: 
12
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Publisher: 
AMER ASSOC ADVANCEMENT SCIENCE
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Peer reviewed: 
Yes
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Keywords: 
1D; transport; GHD; experiment; quasi-condensate
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Abstract: 
Transport properties define materials as insulators, metals, or superconductors. A fundamental parameter is the Drude weight, which quantifies the ballistic transport of charge carriers. Here, we measure the Drude weights of an ultracold gas of interacting bosonic atoms confined to one dimension, characterizing atomic and energy currents induced by applying a constant force and by joining two subsystems prepared in different equilibrium states. We demonstrate dissipationless transport, even in the presence of interactions and finite temperature, signifying ballistic propagation of conserved quantities corresponding to lowest order hydrodynamics. Our approach provides a robust and transparent framework for characterizing transport in strongly correlated quantum matter, applicable in regimes where theory remains incomplete.
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Project title: 
Emergence in Quantum Physics: 101097858 (European Commission) 
Strongly correlated Quantum Systems out of equilibrium: P 36656-N (FWF - Österr. Wissenschaftsfonds) 
Thermische Maschinen in der Quantenwelt: I 6047 (FWF - Österr. Wissenschaftsfonds) 
FUELING QUANTUM FIELD MACHINES WITH INFORMATION: FQXi-IAF19-03-S1 (Vereine, Stiftungen, Preise) 
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Link (external): 
https://zenodo.org/records/17359909
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Research Areas: 
Quantum Many-body Systems Physics: 100%
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Science Branch: 
1030 - Physik, Astronomie: 100%
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