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Quantum enhanced multiple-phase estimation with multi-mode N00N states

Seongjin Hong, Junaid ur Rehman, Yong‐Su Kim, Young‐Wook Cho, Seung-Woo Lee, Hojoong Jung, Sung Moon, Sang-Wook Han, Hyang‐Tag Lim

2021Nature Communications68 citationsDOIOpen Access PDF

Abstract

Quantum metrology can achieve enhanced sensitivity for estimating unknown parameters beyond the standard quantum limit. Recently, multiple-phase estimation exploiting quantum resources has attracted intensive interest for its applications in quantum imaging and sensor networks. For multiple-phase estimation, the amount of enhanced sensitivity is dependent on quantum probe states, and multi-mode N00N states are known to be a key resource for this. However, its experimental demonstration has been missing so far since generating such states is highly challenging. Here, we report generation of multi-mode N00N states and experimental demonstration of quantum enhanced multiple-phase estimation using the multi-mode N00N states. In particular, we show that the quantum Cramer-Rao bound can be saturated using our two-photon four-mode N00N state and measurement scheme using a 4 × 4 multi-mode beam splitter. Our multiple-phase estimation strategy provides a faithful platform to investigate multiple parameter estimation scenarios.

Topics & Concepts

Quantum metrologyQuantum stateBeam splitterComputer scienceQuantum sensorQuantumSensitivity (control systems)Quantum limitCoherent statesMode (computer interface)Quantum computerPhysicsQuantum networkPhotonAlgorithmQuantum mechanicsElectronic engineeringEngineeringOperating systemLaserQuantum Information and CryptographyDiamond and Carbon-based Materials ResearchLaser-Matter Interactions and Applications