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Achieving the Heisenberg limit with Dicke states in noisy quantum metrology

Zain H. Saleem, Michael A. Perlin, Anil Shaji, Stephen K. Gray

2024Physical review. A/Physical review, A19 citationsDOIOpen Access PDF

Abstract

Going beyond the standard quantum limit in noisy quantum metrology is an important and challenging task. Here we show how Dicke states can be used to surpass the standard quantum limit and achieve the Heisenberg limit in open quantum systems. The system we study has qubits symmetrically coupled to a resonator, and our objective is to estimate the coupling between the qubits and the resonator. The time-dependent quantum Fisher information with respect to the coupling is studied for this open quantum system where the same decay rates are assumed on all qubits. We show that when the system is initialized to a Dicke state with an optimal excitation number one can go beyond the standard quantum limit and achieve the Heisenberg limit even for finite values of the decays on the qubit and the resonator, particularly when the qubits and resonator are strongly coupled. We compare our results against the highly entangled GHZ state and a completely separable state and show that the GHZ state performs quite poorly, whereas under certain noise conditions the separable state is able to go beyond the standard quantum limit due to subsequent interactions with a resonator.

Topics & Concepts

Heisenberg limitQubitQuantum limitPhysicsQuantum mechanicsQuantum metrologyQuantum stateQuantumQuantum discordOpen quantum systemQuantum informationQuantum networkQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture
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