Protected and controllable GKP qubits in high-impedance Josephson circuits.
ORAL
Abstract
Dynamics of an oscillator governed by two commuting modular operators can stabilize the GKP code. We propose to effectively engineer these in the rotating frame of a high-impedance Josephson circuit coupled to a cold reservoir. Numerical simulations show that logical errors triggered by single-photon dissipation are then exponentially suppressed when increasing the engineered dissipation strength. Our scheme also allows for protected initialization and readout of the encoded qubits, and for a set of exact Clifford gates.
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Presenters
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Phillipe Campagne-Ibarcq
Quantic team, ENS Paris, Inria
Authors
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Phillipe Campagne-Ibarcq
Quantic team, ENS Paris, Inria
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Pierre Rouchon
Quantic team, MinesParisTech, Inria
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Alain Sarlette
Inria Paris, Quantic team, Inria, QUANTIC, Inria Paris
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Mazyar Mirrahimi
Inria Paris, INRIA Paris, Quantic team, Inria, Inria, QUANTIC team, Inria Paris, Paris, France, QUANTIC, Inria Paris