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Mid-Infrared Balanced Detector for Quantum Light Characterization
QTh7B.5
Mid-Infrared Balanced Detector for Quantum Light Characterization

Tecla Gabbrielli
LENS

  • Quantum Photonic Sources & Detectors
Entanglement-enhanced testing of multiple quantum hypotheses
QTh7B.7
Entanglement-enhanced testing of multiple quantum hypotheses

Quntao Zhuang
University of Arizona

  • Quantum Metrology & Sensors
Ultra-stable quantum imaging with undetected photons in video rate
QTh7B.8
Ultra-stable quantum imaging with undetected photons in video rate

Markus Graefe
Fraunhofer IOF

  • Quantum Metrology & Sensors
A micropillar single-photon source design numerically optimized for high efficiency and high indistinguishability
QTh7B.9
A micropillar single-photon source design numerically optimized for high efficiency and high indistinguishability

Biying Wang
Technical University of Denmark

  • Quantum Photonic Sources & Detectors
Density matrix analysis of Atom interferometer
QTh7B.13
Density matrix analysis of Atom interferometer

Ashoka Vudayagiri
University of Hyderabad

  • Quantum Metrology & Sensors
Secret Key Distillation over Realistic Satellite-to-satellite Free-space Channel
QTh7B.15
Secret Key Distillation over Realistic Satellite-to-satellite Free-space Channel

Ziwen Pan
the University of Arizona

  • Quantum Communication Systems
Random Number Generation with Few Mode Fibres
QTh7B.16
Random Number Generation with Few Mode Fibres

Gautam Shaw
IIT Madras

  • Quantum Communication Systems
MHz Bandwidth Source of Single Photons Tuned to Rubidium Transition
QTh7B.17
MHz Bandwidth Source of Single Photons Tuned to Rubidium Transition

Sonali Gera
Stony Brook University

  • Quantum Communication Systems
An Architecture for Synchronizing Photonic Bell State Measurements Across Lossy, Time-Varying Channels
QTh7B.18
An Architecture for Synchronizing Photonic Bell State Measurements Across Lossy, Time-Varying Channels

Don Boroson
MIT LIncoln Laboratory

  • Quantum Communication Systems
Wavefunction-based Methods For First-principle Calculations of Three-photon Bound State Correlation
QTh7B.20
Wavefunction-based Methods For First-principle Calculations of Three-photon Bound State Correlation

Zihao Chen
Washington University in St. Louis

  • Quantum Photonic Sources & Detectors
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