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Experimental quantum polarimetry using heralded single photons

Seung-Jin Yoon, Joong-Sung Lee, Carsten Rockstuhl, Changhyoup Lee, Kwang-Geol Lee

2020Metrologia25 citationsDOIOpen Access PDF

Abstract

Abstract We perform experimental quantum polarimetry using a heralded single photon to analyze the optical activity of linearly polarized light traversing a chiral medium. Three kinds of estimators are considered to estimate the concentrations of sucrose solutions from measuring the rotation angle of the linear polarization of the output photons. Through repetition of independent and identical measurements performed for each individual scheme and different concentration sucrose solutions, we compare the estimation uncertainty among the three schemes. The results are also compared to classical benchmarks for which a coherent state of light is taken into account. The quantum enhancement in the estimation uncertainty is evaluated and the impact of experimental and technical imperfections is discussed. In this work, we lay out a route for future applications relying on quantum polarimetry.

Topics & Concepts

PolarimetryPhysicsPolarization (electrochemistry)EstimatorPhotonOpticsQuantumPhoton polarizationTraverseWeak measurementQuantum imagingLinear polarizationQuantum opticsQuantum stateStokes parametersQuantum measurementComputational physicsPhoton statisticsLaserNonclassical lightQuantum mechanicsStatistical physicsMeasurement uncertaintyRotation (mathematics)Repetition (rhetorical device)Coherent backscatteringSingle-photon sourceQuantum sensorObservableUnitary stateQuantum dotMolecular spectroscopy and chiralityQuantum Information and CryptographySpectroscopy and Quantum Chemical Studies