Design of an experimental platform for hybridization of atomic and superconducting quantum systems
Hybrid quantum systems have the potential of mitigating current challenges in developing a scalable quantum computer. Of particular interest is the hybridization between atomic and superconducting qubits. We demonstrate an experimental setup for transferring and trapping ultracold atoms inside a mil...
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American Physical Society
2019
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my.utm.886922020-12-15T10:39:35Z http://eprints.utm.my/id/eprint/88692/ Design of an experimental platform for hybridization of atomic and superconducting quantum systems Landra, Alessandro Hufnagel, Christoph Lim, Chin Chean Weigner, Thomas Yap, Yung Szen Long, Long Hoang Nguyen Dumke, Rainer Q Science (General) Hybrid quantum systems have the potential of mitigating current challenges in developing a scalable quantum computer. Of particular interest is the hybridization between atomic and superconducting qubits. We demonstrate an experimental setup for transferring and trapping ultracold atoms inside a millikelvin cryogenic environment, where interactions between atomic and superconducting qubits may be established, paving the way for hybrid quantum systems. We prepare Rb87 atoms in a conventional magneto-optical trap and transport them via a magnetic conveyor belt into a UHV compatible dilution refrigerator with optical access. We store 5×108 atoms with a lifetime of 794 s in the vicinity of the millikelvin stage. American Physical Society 2019-05-28 Article PeerReviewed Landra, Alessandro and Hufnagel, Christoph and Lim, Chin Chean and Weigner, Thomas and Yap, Yung Szen and Long, Long Hoang Nguyen and Dumke, Rainer (2019) Design of an experimental platform for hybridization of atomic and superconducting quantum systems. Physical Review A, 99 (5). ISSN 2469-9926 http://dx.doi.org/10.1103/PhysRevA.99.053421 DOI:10.1103/PhysRevA.99.053421 |
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Q Science (General) Landra, Alessandro Hufnagel, Christoph Lim, Chin Chean Weigner, Thomas Yap, Yung Szen Long, Long Hoang Nguyen Dumke, Rainer Design of an experimental platform for hybridization of atomic and superconducting quantum systems |
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Hybrid quantum systems have the potential of mitigating current challenges in developing a scalable quantum computer. Of particular interest is the hybridization between atomic and superconducting qubits. We demonstrate an experimental setup for transferring and trapping ultracold atoms inside a millikelvin cryogenic environment, where interactions between atomic and superconducting qubits may be established, paving the way for hybrid quantum systems. We prepare Rb87 atoms in a conventional magneto-optical trap and transport them via a magnetic conveyor belt into a UHV compatible dilution refrigerator with optical access. We store 5×108 atoms with a lifetime of 794 s in the vicinity of the millikelvin stage. |
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Article |
author |
Landra, Alessandro Hufnagel, Christoph Lim, Chin Chean Weigner, Thomas Yap, Yung Szen Long, Long Hoang Nguyen Dumke, Rainer |
author_facet |
Landra, Alessandro Hufnagel, Christoph Lim, Chin Chean Weigner, Thomas Yap, Yung Szen Long, Long Hoang Nguyen Dumke, Rainer |
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Landra, Alessandro |
title |
Design of an experimental platform for hybridization of atomic and superconducting quantum systems |
title_short |
Design of an experimental platform for hybridization of atomic and superconducting quantum systems |
title_full |
Design of an experimental platform for hybridization of atomic and superconducting quantum systems |
title_fullStr |
Design of an experimental platform for hybridization of atomic and superconducting quantum systems |
title_full_unstemmed |
Design of an experimental platform for hybridization of atomic and superconducting quantum systems |
title_sort |
design of an experimental platform for hybridization of atomic and superconducting quantum systems |
publisher |
American Physical Society |
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2019 |
url |
http://eprints.utm.my/id/eprint/88692/ http://dx.doi.org/10.1103/PhysRevA.99.053421 |
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1687393607083884544 |
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13.211869 |