Abstract
The Kibble-Zurek mechanism (KZM) predicts the density of topological defects produced in the dynamical processes of phase transitions in systems ranging from cosmology to condensed matter and quantum materials. The similarity between KZM and the Landau-Zener transition (LZT), which is a standard tool to describe the dynamics of some non-equilibrium physics in contemporary physics, is being extensively exploited. Here we demonstrate the equivalence between KZM in the Ising model and LZT in a superconducting qubit system. We develop a time-resolved approach to study quantum dynamics of LZT with nano-second resolution. By using this technique, we simulate the key features of KZM in the Ising model with LZT, e.g., the boundary between the adiabatic and impulse regions, the freeze-out phenomenon in the impulse region, especially, the scaling law of the excited state population as the square root of the quenching speed. Our results provide the experimental evidence of the close connection between KZM and LZT, two textbook paradigms to study the dynamics of the non-equilibrium phenomena.
Highlights
Transitions can be simulated with Landau-Zener transition (LZT) which was experimentally demonstrated using an optical interferometer[23]
By studying the dynamical quantum phase transition in a quantum Ising chain, it is found that the average density of defects scales as the square root of the quenching speed[24,25]
We develop a time-resolved method to directly investigate the quantum dynamics of LZT in the superconducting qubit
Summary
Transitions can be simulated with LZT which was experimentally demonstrated using an optical interferometer[23]. By studying the dynamical quantum phase transition in a quantum Ising chain, it is found that the average density of defects scales as the square root of the quenching speed[24,25]. This universal scaling law of defect formulation as a function of quench speed, which lies at the heart of KZM, lacks adequate experimental evidence in LZT. We observe that the experimental simulated KZM of Ising model displays the theoretically predicted Kibble-Zurek scaling law. Our result demonstrate the close connection between KZM and LZT, in particular, the presence of Kibble-Zurek scaling behavior in LZT
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