Special Topic: Quantum sensing with correlated light sources

[1]  F. Setzpfandt,et al.  Pinhole quantum ghost imaging , 2020, Applied Physics Letters.

[2]  R. Oulton,et al.  Heralded spectroscopy with a fiber photon-pair source , 2020 .

[3]  R. B. Patel,et al.  Quantum-enhanced stimulated emission detection for label-free microscopy , 2020 .

[4]  H. Herrmann,et al.  Two-photon phase-sensing with single-photon detection , 2020, Applied Physics Letters.

[5]  G. Kitaeva,et al.  Study of SPDC spectra to reveal temperature dependences for optical-terahertz biphotons , 2020 .

[6]  Miles J. Padgett,et al.  How many photons does it take to form an image? , 2020, Applied Physics Letters.

[7]  L. Krivitsky,et al.  Quantum imaging for the semiconductor industry , 2020, 2006.12734.

[8]  S. Mukamel,et al.  Multidimensional four-wave-mixing spectroscopy with squeezed light , 2020, Applied Physics Letters.

[9]  J. Matthews,et al.  A practical model of twin-beam experiments for sub-shot-noise absorption measurements , 2020, Applied Physics Letters.

[10]  B. Little,et al.  Broadband generation of photon-pairs from a CMOS compatible device , 2020 .

[11]  M. Chekhova,et al.  Optical coherence tomography with a nonlinear interferometer in the high parametric gain regime , 2020, Applied Physics Letters.

[12]  A. Nomerotski,et al.  Multivariate discrimination in quantum target detection , 2020, 2005.00612.

[13]  S. Mukamel,et al.  Interferometric two-photon-absorption spectroscopy with three entangled photons , 2020, Applied Physics Letters.

[14]  N. Samantaray,et al.  Improving resolution-sensitivity trade off in sub-shot noise quantum imaging , 2020, 2004.00250.

[15]  S. Ramelow,et al.  Microscopy with undetected photons in the mid-infrared , 2020, Science Advances.

[16]  Weiping Zhang,et al.  Quantum dense metrology by an SU(2)-in-SU(1,1) nested interferometer , 2020, Applied Physics Letters.

[17]  Karsten Danzmann,et al.  Increasing the Astrophysical Reach of the Advanced Virgo Detector via the Application of Squeezed Vacuum States of Light , 2019 .

[18]  J. R. Palamos,et al.  Quantum-Enhanced Advanced LIGO Detectors in the Era of Gravitational-Wave Astronomy. , 2019, Physical review letters.

[19]  G. Agarwal,et al.  Squeezed Light Induced Two-photon Absorption Fluorescence of Fluorescein Biomarkers , 2019, 1911.10239.

[20]  Qiang Zhang,et al.  Large scale quantum key distribution: challenges and solutions [Invited]. , 2018, Optics express.

[21]  Harry Buhrman,et al.  The quantum technologies roadmap: a European community view , 2018, New Journal of Physics.

[22]  Harry Buhrman,et al.  The European Quantum Technologies Roadmap , 2017, 1712.03773.

[23]  L. Krivitsky,et al.  Tunable optical coherence tomography in the infrared range using visible photons , 2017, 1710.02343.

[24]  L. Mandel,et al.  Induced coherence without induced emission. , 1991, Physical review. A, Atomic, molecular, and optical physics.