Stable quantum-correlated many-body states through engineered dissipation

Stable quantum-correlated many-body states through engineered dissipation

Engineered dissipative reservoirs have the potential to steer many-body quantum systems toward correlated steady states useful for quantum simulation of high-temperature superconductivity or quantum magnetism. Using up to 49 superconducting qubits, we prepared low-energy states of the transverse-fie...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2024-03, Vol.383 (6689), p.1332-1337
Hauptverfasser: Mi, X, Michailidis, A A, Shabani, S, Miao, K C, Klimov, P V, Lloyd, J, Rosenberg, E, Acharya, R, Aleiner, I, Andersen, T I, Ansmann, M, Arute, F, Arya, K, Asfaw, A, Atalaya, J, Bardin, J C, Bengtsson, A, Bortoli, G, Bourassa, A, Bovaird, J, Brill, L, Broughton, M, Buckley, B B, Buell, D A, Burger, T, Burkett, B, Bushnell, N, Chen, Z, Chiaro, B, Chik, D, Chou, C, Cogan, J, Collins, R, Conner, P, Courtney, W, Crook, A L, Curtin, B, Dau, A G, Debroy, D M, Del Toro Barba, A, Demura, S, Di Paolo, A, Drozdov, I K, Dunsworth, A, Erickson, C, Faoro, L, Farhi, E, Fatemi, R, Ferreira, V S, Burgos, L F, Forati, E, Fowler, A G, Foxen, B, Genois, É, Giang, W, Gidney, C, Gilboa, D, Giustina, M, Gosula, R, Gross, J A, Habegger, S, Hamilton, M C, Hansen, M, Harrigan, M P, Harrington, S D, Heu, P, Hoffmann, M R, Hong, S, Huang, T, Huff, A, Huggins, W J, Ioffe, L B, Isakov, S V, Iveland, J, Jeffrey, E, Jiang, Z, Jones, C, Juhas, P, Kafri, D, Kechedzhi, K, Khattar, T, Khezri, M, Kieferová, M, Kim, S, Kitaev, A, Klots, A R, Korotkov, A N, Kostritsa, F, Kreikebaum, J M, Landhuis, D, Laptev, P, Lau, K-M, Laws, L, Lee, J, Lee, K W, Lensky, Y D, Lester, B J, Lill, A T, Liu, W, Locharla, A
Format: Artikel
Sprache:eng
Schlagworte:
Computers
Correlation
Dissipation
Ising model
Microprocessors
Quantum computers
Quantum theory
Simulators
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Zusammenfassung:Engineered dissipative reservoirs have the potential to steer many-body quantum systems toward correlated steady states useful for quantum simulation of high-temperature superconductivity or quantum magnetism. Using up to 49 superconducting qubits, we prepared low-energy states of the transverse-field Ising model through coupling to dissipative auxiliary qubits. In one dimension, we observed long-range quantum correlations and a ground-state fidelity of 0.86 for 18 qubits at the critical point. In two dimensions, we found mutual information that extends beyond nearest neighbors. Lastly, by coupling the system to auxiliaries emulating reservoirs with different chemical potentials, we explored transport in the quantum Heisenberg model. Our results establish engineered dissipation as a scalable alternative to unitary evolution for preparing entangled many-body states on noisy quantum processors.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.adh9932