Experimental Trapped-ion Quantum Simulation of the Kibble-Zurek dynamics in momentum space
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2016-09-16
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American English
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SpringerNature
Abstract
The Kibble-Zurek mechanism is the paradigm to account for the nonadiabatic dynamics of a system across a continuous phase transition. Its study in the quantum regime is hindered by the requisite of ground state cooling. We report the experimental quantum simulation of critical dynamics in the transverse-field Ising model by a set of Landau-Zener crossings in pseudo-momentum space, that can be probed with high accuracy using a single trapped ion. We test the Kibble-Zurek mechanism in the quantum regime in the momentum space and find the measured scaling of excitations is in accordance with the theoretical prediction.
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Cui, J.-M., Huang, Y.-F., Wang, Z., Cao, D.-Y., Wang, J., Lv, W.-M., … Guo, G.-C. (2016). Experimental Trapped-ion Quantum Simulation of the Kibble-Zurek dynamics in momentum space. Scientific Reports, 6, 33381. http://doi.org/10.1038/srep33381
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Scientific Reports
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PMC
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Article