14 September 2020 – 17 September 2020 OSA Virtual Event - Eastern Time (US & Canada) (UTC - 05:00)
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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 Poster
  • Quantum Photonic Sources & Detectors
  • Oral or Poster Acceptable
Single Ion Implanted Silicon Devices Towards Few Photons Emission Regime For Space Quantum Communications
QTh7B.10
Single Ion Implanted Silicon Devices Towards Few Photons Emission Regime For Space Quantum Communications

Enrico Prati
CNR-IFN

  • Quantum Poster
  • Quantum Photonic Sources & Detectors
  • Oral or Poster Acceptable
Single Ion Implanted Silicon Devices Towards Few Photons Emission Regime For Space Quantum Communications
QTh7B.10
Single Ion Implanted Silicon Devices Towards Few Photons Emission Regime For Space Quantum Communications

Enrico Prati
CNR-IFN

  • Quantum Poster
  • Quantum Photonic Sources & Detectors
  • Oral or Poster Acceptable
Density matrix analysis of Atom interferometer
QTh7B.13
Density matrix analysis of Atom interferometer

Ashoka Vudayagiri
University of Hyderabad

  • Quantum Poster
  • Quantum Metrology & Sensors
  • Oral or Poster Acceptable
Density matrix analysis of Atom interferometer
QTh7B.13
Density matrix analysis of Atom interferometer

Ashoka Vudayagiri
University of Hyderabad

  • Quantum Poster
  • Quantum Metrology & Sensors
  • Oral or Poster Acceptable
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 Poster
  • Quantum Communication Systems
  • Oral or Poster Acceptable
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 Poster
  • Quantum Communication Systems
  • Oral or Poster Acceptable
Random Number Generation with Few Mode Fibres
QTh7B.16
Random Number Generation with Few Mode Fibres

Gautam Shaw
IIT Madras

  • Quantum Poster
  • Quantum Communication Systems
  • Oral or Poster Acceptable
Random Number Generation with Few Mode Fibres
QTh7B.16
Random Number Generation with Few Mode Fibres

Gautam Shaw
IIT Madras

  • Quantum Poster
  • Quantum Communication Systems
  • Oral or Poster Acceptable
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 Poster
  • Quantum Communication Systems
  • Oral or Poster Acceptable
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 Poster
  • Quantum Communication Systems
  • Oral or Poster Acceptable
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 Poster
  • Quantum Communication Systems
  • Oral Only
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 Poster
  • Quantum Communication Systems
  • Oral Only
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 Poster
  • Quantum Photonic Sources & Detectors
  • Oral or Poster Acceptable
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 Poster
  • Quantum Photonic Sources & Detectors
  • Oral or Poster Acceptable