Interaction Dependent Heating and Atom Loss in a Periodically Driven Optical 
Lattice

Reitter, Martin; Näger, Jakob; Wintersperger, Karen; Sträter, Christoph; Bloch, Immanuel; Eckardt, Andre; Schneider, Ulrich

doi:10.1103/PhysRevLett.119.200402

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Interaction Dependent Heating and Atom Loss in a Periodically Driven Optical Lattice

Reitter, M., Näger, J., Wintersperger, K., Sträter, C., Bloch, I., Eckardt, A., et al. (2017). Interaction Dependent Heating and Atom Loss in a Periodically Driven Optical Lattice. Physical Review Letters, 119(20): 200402. doi:10.1103/PhysRevLett.119.200402.

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Item Permalink: https://hdl.handle.net/21.11116/0000-0001-52CD-C Version Permalink: https://hdl.handle.net/21.11116/0000-0004-CC40-E

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Creators:
Reitter, Martin¹, Author
Näger, Jakob¹, Author
Wintersperger, Karen², Author
Sträter, Christoph³, Author
Bloch, Immanuel¹, Author
Eckardt, Andre³, Author
Schneider, Ulrich⁴, Author

Affiliations:
1Quantum Many Body Systems, Max Planck Institute of Quantum Optics, Max Planck Society, ou_1445570
2IMPRS (International Max Planck Research School), Max Planck Institute of Quantum Optics, Max Planck Society, ou_3164443
3Max Planck Institute for the Physics of Complex Systems, Max Planck Society, ou_2117288
4external, ou_persistent22

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: Ultracold matter

Abstract: Periodic driving of optical lattices has enabled the creation of novel band structures not realizable in static lattice systems, such as topological bands for neutral particles. However, especially driven systems of interacting bosonic particles often suffer from strong heating. We have systematically studied heating in an interacting Bose-Einstein condensate in a driven one-dimensional optical lattice. We find interaction dependent heating rates that depend on both the scattering length and the driving strength and identify the underlying resonant intra-and interband scattering processes. By comparing the experimental data and theory, we find that, for driving frequencies well above the trap depth, the heating rate is dramatically reduced by the fact that resonantly scattered atoms leave the trap before dissipating their energy into the system. This mechanism of Floquet evaporative cooling offers a powerful strategy to minimize heating in Floquet engineered quantum gases.

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Language(s): eng - English

Dates: Submitted: 2017-06-29Published Online: 2017-11-16Date issued: 2017-11-17

Publication Status: Issued

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Rev. Type: Peer

Identifiers: ISI: 000415301600001
DOI: 10.1103/PhysRevLett.119.200402
URI: https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.119.200402
arXiv: 1706.04819
Other: 5552

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Title: Physical Review Letters

Abbreviation : Phys. Rev. Lett.

Source Genre: Journal

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Publ. Info: Woodbury, N.Y. : American Physical Society

Pages: - Volume / Issue: 119 (20) Sequence Number: 200402 Start / End Page: - Identifier: ISSN: 0031-9007
CoNE: https://pure.mpg.de/cone/journals/resource/954925433406_1