Journal article
Realization of a discrete time crystal on 57 qubits of a quantum computer
P Frey, S Rachel
Science Advances | Published : 2022
Abstract
Unconventional dynamical phases that violate ergodicity have been a subject of extensive research in recent years. A periodically driven system is naively expected to lose all memory of its initial state due to thermalization, yet this can be avoided in the presence of many-body localization. A discrete time crystal represents a driven system whose local observables spontaneously break time translation symmetry and retain memory of the initial state indefinitely. Here, we report the observation of a discrete time crystal on a chain consisting of 57 superconducting qubits on a state-of-the-art quantum computer. We probe random initial states and compare the cases of vanishing and finite disor..
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Awarded by International Business Machines Corporation
Funding Acknowledgements
This work was supported by the University of Melbourne through the establishment of an IBM Quantum Hub at the University. S.R. acknowledges support from the Australian Research Council through grant no. FT180100211.