Berlin 2018 – scientific programme
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TT: Fachverband Tiefe Temperaturen
TT 99: Poster Session: Transport
TT 99.51: Poster
Thursday, March 15, 2018, 15:00–19:00, Poster B
Remote entanglement stabilization and distillation by quantum reservoir engineering — Didier Nicolas2, •Jérémie Guillaud1, Shyam Shankar3, and Mazyar Mirrahimi1 — 1Inria Paris, Paris, France — 2Rigetti Computing, Berkeley, USA — 3Yale University, New Haven, USA
Quantum information processing protocols based on teleportation require highly entangled pairs of distant qubits as a primary resource. We present a new protocol that achieves an autonomous remote entanglement distillation using two-mode squeezed light as an imperfect source of entanglement. Two remote cavities are driven at distance using a three-wave mixing device that generates a two-mode squeezed light at resonance with the cavities. The autonomous distillation is performed through the local dispersive couplings of qubits to cavities and some additional local drives on the qubits. We will illustrate (numerically and analytically) how this protocol stabilizes a maximally entangled Bell state of the qubits regardless of the applied squeezing strength. We also study the robustness study of this reservoir engineering protocol in presence of various sources of imperfection and decoherence. This study is done through numerical simulations and systematic model reduction techniques such as adiabatic elimination of stable fast dynamics.