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Research at the Center for Quantum Leaps has led to a new method for reducing decoherence in quantum systems, enhancing the stability and feasibility of quantum technologies.
As part of the Center for Quantum Leaps, a signature initiative of the Arts & Sciences strategic plan, physicist Kater Murch and his research group use nano-fabrication techniques to construct superconducting quantum circuits that allow them to probe fundamental questions in quantum mechanics. Qubits are promising systems for realizing quantum schemes for computation, simulation, and data encryption.
Murch and his collaborators published a new paper, published on May 13 in
Reference: “Entanglement Assisted Probe of the Non-Markovian to Markovian Transition in Open Quantum System Dynamics” by Chandrashekhar Gaikwad, Daria Kowsari, Carson Brame, Xingrui Song, Haimeng Zhang, Martina Esposito, Arpit Ranadive, Giulio Cappelli, Nicolas Roch, Eli M. Levenson-Falk and Kater W. Murch, 13 May 2024, Physical Review Letters.
DOI: 10.1103/PhysRevLett.132.200401