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Literature DB >> 27824460

Time-Resolved Observation of Thermalization in an Isolated Quantum System.

Govinda Clos¹, Diego Porras², Ulrich Warring¹, Tobias Schaetz¹.

Abstract

We use trapped atomic ions forming a hybrid Coulomb crystal and exploit its phonons to study an isolated quantum system composed of a single spin coupled to an engineered bosonic environment. We increase the complexity of the system by adding ions and controlling coherent couplings and, thereby, we observe the emergence of thermalization: Time averages of spin observables approach microcanonical averages while related fluctuations decay. Our platform features precise control of system size, coupling strength, and isolation from the external world to explore the dynamics of equilibration and thermalization.

Year: 2016 PMID： 27824460 DOI： 10.1103/PhysRevLett.117.170401

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

4 in total

4. Unifying scrambling, thermalization and entanglement through measurement of fidelity out-of-time-order correlators in the Dicke model.

Authors: R J Lewis-Swan; A Safavi-Naini; J J Bollinger; A M Rey
Journal: Nat Commun Date: 2019-04-05 Impact factor: 14.919

4 in total

Time-Resolved Observation of Thermalization in an Isolated Quantum System.

1. The new thermodynamics: how quantum physics is bending the rules.

2. Local probe of single phonon dynamics in warm ion crystals.

3. Hybrid setup for stable magnetic fields enabling robust quantum control.

4. Unifying scrambling, thermalization and entanglement through measurement of fidelity out-of-time-order correlators in the Dicke model.