Kuniyil, Hashir PuthiyapurayilÖzel, HelinYılmaz, H.Durak, Kadir2023-06-132023-06-132022-102040-8978http://hdl.handle.net/10679/8391https://doi.org/10.1088/2040-8986/ac899cImaging, detection and ranging of objects in the presence of significant background noise is a fundamental challenge in optical sensing. Overcoming the limitations imposed in conventional methods, quantum light sources show higher resistance against noise in a time-correlation-based quantum illumination. Here, we introduce the advantage of using not only time correlations but also polarization correlations in photon pairs in the detection of an object that is embedded in a noisy background. In this direction, a time- and polarization-correlated photon pair source using the spontaneous parametric down-conversion process is exploited. We found that the joint measurement of correlated pairs allows distinguishing the signal from the noise photons and that leads to an improved signal-to-noise ratio. Our comparative study revealed that using polarization correlations in addition to time correlations provides improved noise rejection. Furthermore, we show that polarization correlation allows undoing the detector limitation where high background often leads to detector saturation.engrestrictedAccessNoise-tolerant object detection and ranging using quantum correlationsarticle241000084432130000110.1088/2040-8986/ac899cQuantum correlationQuantum lidarSingle photon detectorsSpontaneous parametric down conversion2-s2.0-85137703196