Fundamental bound on entanglement generation between interacting Rydberg atoms

Abstract

We analytically derive the fundamental lower bound for the preparation fidelity of a maximally-entangled (Bell) state of two atoms involving Rydberg-state interactions. This bound represents the minimum achievable error E ≥ ( 1 + π/2 ) /B due to spontaneous decay of the Rydberg states and their finite interaction strength B. Using quantum optimal control methods, we identify laser pulses for preparing a maximally-entangled state of a pair of atomic qubits with an error only 1\% above the derived fundamental bound.

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