Category |
Publication |
Author |
Link |
Quantum Science |
Fast quantum ghost imaging with a single-photon-sensitive time-stamping camera |
Alex Mavian, Yang Xu, Cheng Li, Robert Boyd, Optica Publishing (2025) |
|
Quantum Science |
Biphoton state reconstruction via phase retrieval methods |
N.Dehghan et al. Optica Publishing (2024) |
|
Quantum Science |
Engineering quantum states from a spatially structured quantum eraser. |
Carlo Schiano et al. Sci. Adv (2024) |
|
Quantum Science |
Background resilient quantitative phase microscopy using entangled photons |
Yingwen Zhang et al. arXiv (2024) |
|
Quantum Science |
Quantum light-field microscopy for volumetric imaging with extreme depth of field |
Yingwen Zhang et al. Phys. Rev. Applied (2024) |
|
Quantum Science |
Individual-Ion Addressing and Readout in a Penning Trap |
Brian J. McMahon, et al. arXiv (2024) |
|
Quantum Science |
Intensified Tpx3Cam, a fast data-driven optical camera with nanosecond timing resolution for single photon detection in quantum applications |
A. Nomerotski et al. IOP Science (2023) |
|
Quantum Science |
Characterisation of a single photon event camera for quantum imaging |
V. Vidyapin et al. Nature (2023) |
|
Quantum Science |
Snapshot hyperspectral imaging with quantum correlated photons |
Y.Zhang et al. Optica (2023) |
|
Quantum Science |
Study of afterpulsing in optical image intensifiers |
R Mahon et al. arXiv (2023) |
|
Quantum Science |
Spectral characterization of a SPDC source with a fast broadband spectrometer |
B Farella et al. arXiv (2023) |
|
Quantum Science |
Experimental Work Towards an Individually-Addressed-Ion Penning Trap Quantum Simulator |
B McMahon et al. Bulletin of the American Physical Society (2023) |
|
Quantum Science |
Full spatial characterization of entangled structured photons |
X Gao et al. arXiv (2023) |
|
Quantum Science |
Full spatial characterization of entangled structured photons |
X Gao et al. arXiv (2023) |
|
Quantum Science |
Stability of 3D Optical Topologies and Reconstruction of Strongly Correlated Bi-photon States |
SF Dehghan Manshadi et al. Uottawa (2023) |
|
Quantum Science |
Interferometric imaging of amplitude and phase of spatial biphoton states |
D Zia et al. Nature Photonics (2023) |
|
Quantum Science |
Intensity interferometry for holography with quantum and classical light |
G Thekkadath et al. Science (2023) |
|
Quantum Science |
Quantifying high-dimensional spatial entanglement with a single-photon-sensitive time-stamping camera |
B Courme et al. Optics Letters (2023) |
|
Quantum Science |
Efficient site-resolved imaging and spin-state detection in dynamic two-dimensional ion crystals |
RN Wolf et al. arXiv (2023) |
|
Quantum Science |
Micromotion-synchronized pulsed Doppler cooling of trapped ions |
A Kato et al. Physical Review A (2023) |
|
Time Projection Chamber |
ARIADNE+ Large Scale demonstration of fast optical readout |
A Lowe et al. MDPI Physical Sciences Forum (2023) |
|
Quantum Science |
Quantum correlation light-field microscope with extreme depth of field |
Y. Zhang et al. Arxiv. (2022) |
|
Quantum Science |
Reconfigurable phase contrast microscopy with correlated photon pairs |
H. Hodgson et al. AIP Publishing (2022) |
|
Quantum Science |
High-speed imaging of spatiotemporal correlations in Hong-Ou-Mandel interference |
X Gao et al. Optica Publishing Group (2022) |
|
Quantum Science |
Observation of Nonclassical Photon Statistics in Single-Bubble Sonoluminescence |
M. Rezaee et al. Arvix (2022) |
|
Quantum Science |
Ray tracing with quantum correlated photons to image a three-dimensional scene |
Y. Zhang et al. Phys. Rev. A (2022) |
|
Quantum Science |
Quantum-Assisted Optical Interferometers: Instrument Requirements |
A. Nomerotski et al. Optical and Infrared Interferometry and Imaging VII (2022) |
|
Quantum Science |
Ray tracing with quantum correlated photons to image a three-dimensional scene |
Y Zhang et al. Physical Review A (2022) |
|
Quantum Science |
Trapping and cooling two-dimensional crystals of barium ions |
A Kato et al. ProQuest (2022) |
|
Quantum Science |
Two-tone Doppler cooling of radial two-dimensional crystals in a radio-frequency ion trap |
A Kato et al. Physical Review A (2022) |
|
Quantum Science |
Two-tone Doppler cooling of radial two-dimensional crystals in a radio frequency ion trap |
A. Kato et al. Arvix (2021) |
|
Quantum Science |
High-Fidelity Simultaneous Detection of Trapped Ion Qubit Register |
L. A. Zhukas et al. Physical Review A (2021) |
|
Quantum Science |
Direct observation of ion micromotion in a linear Paul trap |
L. A. Zhukas et al. Physical Review A (2021) |
|
Quantum Science |
High speed imaging of spectral-temporal correlations in Hong-Ou-Mandel interference |
Y. Zhang et al. Opt. Express (2021) |
|
Quantum Science |
Fast imaging of single photons in quantum assisted optical interferometers |
A Nomerotski et al arXiv (2021) |
|
Quantum Science |
Time-stamping and counting of single photons using fast camera |
A Nomerotski et al. IEEE Xplore (2021) |
|
Quantum Science |
Quantum-Assisted Optical Interferometry |
A Parsells, J Schiff et al. Quantastro (2021) |
|
Quantum Science |
Novel Methods in Trapped-Ion Quantum Computing: Single-Photon-Sensitive Time-Resolving Camera, Sympathetic Cooling, and Qutrit |
L Zhukas et al. ProQuest (2021) |
|
Quantum Science |
Direct observation of ion micromotion in a linear Paul trap |
LA Zhukas et al. Physical Review A (2021) |
|
Quantum Science |
Multivariate discrimination in quantum target detection |
P. Svihra et al. Applied Physics Letters (2020) |
|
Quantum Science |
Fast camera spatial characterization of photonic polarization entanglement |
C. Ianzano et al. Scientific Reports (2020) |
|
Quantum Science |
Counting of Hong-Ou-Mandel Bunched Optical Photons Using a Fast Pixel Camera |
A. Nomerotski et al. Sensors (2020) |
|
Quantum Science |
Multidimensional quantum-enhanced target detection via spectrotemporal-correlation measurements |
Y. Zhang et al. Physical Review A (2020) |
|
Quantum Science |
Spatial and temporal characterization of polarization entanglement |
A Nomerotski et al Journal of Quantum (2020) |
|
Quantum Science |
Imaging and time stamping of photons with nanosecond resolution in Timepix based optical cameras |
A. Nomerotski. Nuclear Instruments and Methods in Physics Research (2019) |
|
Quantum Science |
Multidimensional quantum illumination via direct measurement of spectro-temporal correlations |
Y. Zhang et al. arXiv (2019) |
|
Quantum Science |
Spatial characterization of photonic polarization entanglement using a Tpx3Cam intensified fast-camera |
C Ianzano et al. arXiv (2018) |
|
Quantum Science |
Characterization of TimepixCam, a fast imager for the time-stamping of optical photons |
A. Nomerotski et al. Journal of Instrumentation (2017) |
|
Quantum Science |
TimepixCam: a fast optical imager with time-stamping |
M. Fisher-Levine and A. Nomerotski. Journal of Instrumentation (2016) |
|