Litcius/Paper detail

Quantum-enhanced phase imaging without coincidence counting

A. Nicholas Black, Long Nguyen, Boris Braverman, Kevin T. Crampton, James Evans, Robert W. Boyd

2023Optica24 citationsDOIOpen Access PDF

Abstract

Quantitative phase imaging provides a way to image transparent objects, such as biological cells, and measure their thickness. We report on a phase-imaging method that achieves twice the phase shift and approximately 1.7 times the spatial resolution of an equivalent spatially and temporally coherent classical quantitative phase-imaging system by using quantum interference between successive spontaneous parametric downconversion events in a nonlinear crystal. Furthermore, our method is approximately 1000 times faster than imaging the parametric downconversion photons in coincidence, which requires measurement times on the order of tens of hours. Our method may be useful for imaging sensitive transparent objects that require low illumination intensities at near-infrared and longer illumination wavelengths, such as photosensitive biological samples.

Topics & Concepts

CoincidenceOpticsPhase (matter)PhysicsInterference (communication)PhotonParametric statisticsQuantum imagingWavelengthCoincidence detection in neurobiologyQuantumPhoton countingGhost imagingCoincidence countingPhase imagingQuantum opticsMicroscopyComputer scienceQuantum computerQuantum networkMathematicsQuantum mechanicsTelecommunicationsQuantum entanglementPathologyMedicineStatisticsAlternative medicineChannel (broadcasting)Digital Holography and MicroscopyAdvanced Fluorescence Microscopy TechniquesOptical Coherence Tomography Applications