Periodic Reporting for period 2 - QuantuM-nano (Quantum Measurements with Bose-Einstein condensates strongly coupled to nanophotonic structures)
Periodo di rendicontazione: 2017-08-14 al 2018-08-13
Conclusion of the action: the Rydberg atom array experiment turned out to be extremely successful at performing various tasks in quantum simulations, with up to 50 qubits and an unprecedented degree of fidelity, making it a very promising platform for future applications of the second quantum revolution.
Publications related to this project:
A. Keesling, A. Omran, H. Levine, H. Bernien, H. Pichler, S. Choi, R. Samajdar, S. Schwartz, P. Silvi, S. Sachdev, P. Zoller, M. Endres, M. Greiner, V. Vuletic and M. D. Lukin. Probing quantum critical dynamics on a programmable Rydberg simulator. arXiv:1809.05540 accepted for publication in Nature (April 2019).
H. Levine, A. Keesling, A. Omran, H. Bernien, S. Schwartz, A. S. Zibrov, M. Endres, M. Greiner, V. Vuletic and M. D. Lukin. High-fidelity control and entanglement of Rydberg atom qubits. Physical Review Letters 121, 123603 (2018).
H. Bernien, S. Schwartz, A. Keesling, H. Levine, A. Omran, H. Pichler, S. Choi, A. S. Zibrov, M. Endres, M. Greiner, V. Vuletic and M. D. Lukin, Probing many-body dynamics on a 51-atom quantum simulator, Nature 551, 579-584 (2017).
Link to the report in brief on the CORDIS website:
https://cordis.europa.eu/project/rcn/195575/brief/en
They are also an experimental demonstration of the high degree of control that can be achieved over a 50-qubit platform with neutral atoms, holding great prospects for several applications of the second quantum revolution including quantum metrology and quantum optimization. If pushed even further in system size and fidelity, this technique might find applications in fields of broad general interest like material science or biology, solving problems that cannot be solved on any classical computer.