Litcius/Paper detail

Quantum Limits of Superresolution in a Noisy Environment

Changhun Oh, Sisi Zhou, Yat Wong, Liang Jiang

2021Physical Review Letters41 citationsDOIOpen Access PDF

Abstract

We analyze the ultimate quantum limit of resolving two identical sources in a noisy environment. We prove that in the presence of noise causing false excitation, such as thermal noise, the quantum Fisher information of arbitrary quantum states for the separation of the objects, which quantifies the resolution, always converges to zero as the separation goes to zero. Noisy cases contrast with noiseless cases where the quantum Fisher information has been shown to be nonzero for a small distance in various circumstances, revealing the superresolution. In addition, we show that false excitation on an arbitrary measurement, such as dark counts, also makes the classical Fisher information of the measurement approach to zero as the separation goes to zero. Finally, a practically relevant situation resolving two identical thermal sources is quantitatively investigated by using the quantum and classical Fisher information of finite spatial mode multiplexing, showing that the amount of noise poses a limit on the resolution in a noisy system.

Topics & Concepts

Limit (mathematics)Noise (video)Zero (linguistics)PhysicsQuantumSuperresolutionQuantum limitFisher informationResolution (logic)Statistical physicsQuantum noiseQuantum mechanicsAlgorithmComputer scienceMathematicsImage (mathematics)StatisticsMathematical analysisArtificial intelligenceLinguisticsPhilosophyQuantum Information and CryptographyQuantum optics and atomic interactionsLaser-Matter Interactions and Applications