Physical Review A, 106, 4, 042410 (2022)
Аннотация
Single atoms in dipole microtraps or optical tweezers have recently become a promising platform for
quantum computing and simulation. Here we report a detailed theoretical analysis of the physics
underlying an implementation of a Rydberg two-qubit gate in such a system – a cornerstone protocol
in quantum computing with single atoms. We focus on a blockade-type entangling gate and consider
various decoherence processes limiting its performance in a real system. We provide numerical
estimates for the limits on fidelity of the maximally entangled states and predict the full process
matrix corresponding to the noisy two-qubit gate. Our methods and results may find implementation
in numerical models for simulation and optimization of neutral atom based quantum processors.
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