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Proposal for High-Fidelity Quantum Simulation Using a Hybrid Dressed State | Alex Retzker's Group

Proposal for High-Fidelity Quantum Simulation Using a Hybrid Dressed State

Citation:

JM Cai, Cohen, I, Retzker, A, and Plenio, MB . 10/16/2015. “Proposal For High-Fidelity Quantum Simulation Using A Hybrid Dressed State”. Physical Review Letters, 115, 16. https://doi.org/10.1103/PhysRevLett.115.160504.

Abstract:

A fundamental goal of quantum technologies concerns the exploitation of quantum coherent dynamics for the realization of novel quantum applications such as quantum computing, quantum simulation, and quantum metrology. A key challenge on the way towards these goals remains the protection of quantum coherent dynamics from environmental noise. Here, we propose a concept of a hybrid dressed state from a pair of continuously driven systems. It allows sufficiently strong driving fields to suppress the effect of environmental noise while at the same time being insusceptible to both the amplitude and phase noise in the continuous driving fields. This combination of robust features significantly enhances coherence times under realistic conditions and at the same time provides new flexibility in Hamiltonian engineering that otherwise is not achievable. We demonstrate theoretically applications of our scheme for a noise-resistant analog quantum simulation in the well-studied physical systems of nitrogen-vacancy centers in diamond and of trapped ions. The scheme may also be exploited for quantum computation and quantum metrology.
Last updated on 07/04/2021