L. Amico
Roadmap on Atomtronics: State of the art and perspective
Amico, L.; Boshier, M.; Birkl, G.; Minguzzi, A.; Miniatura, C.; Kwek, L.-C.; Aghamalyan, D.; Ahufinger, V.; Anderson, D.; Andrei, N.; Arnold, A.S.; Baker, M.; Bell, T.A.; Bland, T.; Brantut, J.P.; Cassettari, D.; Chetcuti, W.J.; Chevy, F.; Citro, R.; De Palo, S.; Dumke, R.; Edwards, M.; Folman, R.; Fortagh, J.; Gardiner, S.A.; Garraway, B.M.; Gauthier, G.; Günther, A.; Haug, T.; Hufnagel, C.; Keil, M.; Ireland, P.; Lebrat, M.; Li, W.; Longchambon, L.; Mompart, J.; Morsch, O.; Naldesi, P.; Neely, T.W.; Olshanii, M.; Orignac, E.; Pandey, S.; Pérez-Obiol, A.; Perrin, H.; Piroli, L.; Polo, J.; Pritchard, A.L.; Proukakis, N.P.; Rylands, C.; Rubinsztein-Dunlop, H.; Scazza, F.; Stringari, S.; Tosto, F.; Trombettoni, A.; Victorin, N.; Klitzing, W. von; Wilkowski, D.; Xhani, K.; Yakimenko, A.
Authors
M. Boshier
G. Birkl
A. Minguzzi
C. Miniatura
L.-C. Kwek
D. Aghamalyan
V. Ahufinger
D. Anderson
N. Andrei
A.S. Arnold
M. Baker
T.A. Bell
T. Bland
J.P. Brantut
D. Cassettari
W.J. Chetcuti
F. Chevy
R. Citro
S. De Palo
R. Dumke
M. Edwards
R. Folman
J. Fortagh
Professor Simon Gardiner s.a.gardiner@durham.ac.uk
Professor
B.M. Garraway
G. Gauthier
A. Günther
T. Haug
C. Hufnagel
M. Keil
P. Ireland
M. Lebrat
W. Li
L. Longchambon
J. Mompart
O. Morsch
P. Naldesi
T.W. Neely
M. Olshanii
E. Orignac
S. Pandey
A. Pérez-Obiol
H. Perrin
L. Piroli
J. Polo
A.L. Pritchard
N.P. Proukakis
C. Rylands
H. Rubinsztein-Dunlop
F. Scazza
S. Stringari
F. Tosto
A. Trombettoni
N. Victorin
W. von Klitzing
D. Wilkowski
K. Xhani
A. Yakimenko
Abstract
Atomtronics deals with matter-wave circuits of ultracold atoms manipulated through magnetic or laser-generated guides with different shapes and intensities. In this way, new types of quantum networks can be constructed in which coherent fluids are controlled with the know-how developed in the atomic and molecular physics community. In particular, quantum devices with enhanced precision, control, and flexibility of their operating conditions can be accessed. Concomitantly, new quantum simulators and emulators harnessing on the coherent current flows can also be developed. Here, the authors survey the landscape of atomtronics-enabled quantum technology and draw a roadmap for the field in the near future. The authors review some of the latest progress achieved in matter-wave circuits' design and atom-chips. Atomtronic networks are deployed as promising platforms for probing many-body physics with a new angle and a new twist. The latter can be done at the level of both equilibrium and nonequilibrium situations. Numerous relevant problems in mesoscopic physics, such as persistent currents and quantum transport in circuits of fermionic or bosonic atoms, are studied through a new lens. The authors summarize some of the atomtronics quantum devices and sensors. Finally, the authors discuss alkali-earth and Rydberg atoms as potential platforms for the realization of atomtronic circuits with special features.
Citation
Amico, L., Boshier, M., Birkl, G., Minguzzi, A., Miniatura, C., Kwek, L., …Yakimenko, A. (2021). Roadmap on Atomtronics: State of the art and perspective. AVS Quantum Science, 3(3), Article 039201. https://doi.org/10.1116/5.0026178
Journal Article Type | Article |
---|---|
Acceptance Date | Jun 9, 2021 |
Online Publication Date | Aug 25, 2021 |
Publication Date | 2021-09 |
Deposit Date | Sep 20, 2021 |
Publicly Available Date | Oct 28, 2021 |
Journal | AVS Quantum Science |
Publisher | American Institute of Physics |
Peer Reviewed | Peer Reviewed |
Volume | 3 |
Issue | 3 |
Article Number | 039201 |
DOI | https://doi.org/10.1116/5.0026178 |
Public URL | https://durham-repository.worktribe.com/output/1240136 |
Related Public URLs | https://arxiv.org/abs/2008.04439 |
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Copyright Statement
© 2021 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
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