14 September 2020 – 17 September 2020 OSA Virtual Event - Eastern Daylight Time (UTC - 04:00)
Search Filters

Controlling Atomic Qubits with Optical and Microwave Vortices
QTu8B.9
Controlling Atomic Qubits with Optical and Microwave Vortices

Andrei Afanasev
George Washington University

  • Quantum Poster
  • Quantum Computing & Simulation
  • Oral or Poster Acceptable
Controlling Atomic Qubits with Optical and Microwave Vortices
QTu8B.9
Controlling Atomic Qubits with Optical and Microwave Vortices

Andrei Afanasev
George Washington University

  • Quantum Poster
  • Quantum Computing & Simulation
  • Oral or Poster Acceptable
Device-Independent Quantum Computing
QTu8B.11
Device-Independent Quantum Computing

Ni-Ni Huang
Department of Engineering Science, National Che...

  • Quantum Poster
  • Quantum Computing & Simulation
  • Oral or Poster Acceptable
Device-Independent Quantum Computing
QTu8B.11
Device-Independent Quantum Computing

Ni-Ni Huang
Department of Engineering Science, National Che...

  • Quantum Poster
  • Quantum Computing & Simulation
  • Oral or Poster Acceptable
Practical route to entanglement-enhanced communication over noisy bosonic channels
QTu8B.13
Practical route to entanglement-enhanced communication over noisy bosonic channels

Haowei Shi
University of Arizona

  • Quantum Poster
  • Quantum Communication Systems
  • Oral Only
Practical route to entanglement-enhanced communication over noisy bosonic channels
QTu8B.13
Practical route to entanglement-enhanced communication over noisy bosonic channels

Haowei Shi
University of Arizona

  • Quantum Poster
  • Quantum Communication Systems
  • Oral Only
ARTIQ and Sinara: Open Software and Hardware Stacks for Quantum Physics
QTu8B.14
ARTIQ and Sinara: Open Software and Hardware Stacks for Quantum Physics

Grzegorz Kasprowicz
Warsaw University of Technology

  • Quantum Poster
  • Optical & Laser Technology for QIST Systems
  • Oral or Poster Acceptable
ARTIQ and Sinara: Open Software and Hardware Stacks for Quantum Physics
QTu8B.14
ARTIQ and Sinara: Open Software and Hardware Stacks for Quantum Physics

Grzegorz Kasprowicz
Warsaw University of Technology

  • Quantum Poster
  • Optical & Laser Technology for QIST Systems
  • Oral or Poster Acceptable
NV- Center Magnetometry Speed Up by an Order of Magnitude Using Optimal Bayesian Experimental Design
QTu8B.15
NV- Center Magnetometry Speed Up by an Order of Magnitude Using Optimal Bayesian Experimental Design

Sergey Dushenko
University of Maryland College Park

  • Quantum Poster
  • Quantum Metrology & Sensors
  • Oral Only
NV- Center Magnetometry Speed Up by an Order of Magnitude Using Optimal Bayesian Experimental Design
QTu8B.15
NV- Center Magnetometry Speed Up by an Order of Magnitude Using Optimal Bayesian Experimental Design

Sergey Dushenko
University of Maryland College Park

  • Quantum Poster
  • Quantum Metrology & Sensors
  • Oral Only
Towards a Quantum Memory: Effects of Hyperfine Structure on Atomic Frequency Combs in Pr:YSO
QTu8B.16
Towards a Quantum Memory: Effects of Hyperfine Structure on Atomic Frequency Combs in Pr:YSO

Aditya Sharma
University of Maryland

  • Quantum Poster
  • Quantum Communication Systems
  • Oral Only
Towards a Quantum Memory: Effects of Hyperfine Structure on Atomic Frequency Combs in Pr:YSO
QTu8B.16
Towards a Quantum Memory: Effects of Hyperfine Structure on Atomic Frequency Combs in Pr:YSO

Aditya Sharma
University of Maryland

  • Quantum Poster
  • Quantum Communication Systems
  • Oral Only
Coincidence Detection based Quantum Key Distribution Protocol
QTu8B.17
Coincidence Detection based Quantum Key Distribution Protocol

Anindya Banerji
Physical Research Laboratory

  • Quantum Poster
  • Quantum Communication Systems
  • Oral or Poster Acceptable
Coincidence Detection based Quantum Key Distribution Protocol
QTu8B.17
Coincidence Detection based Quantum Key Distribution Protocol

Anindya Banerji
Physical Research Laboratory

  • Quantum Poster
  • Quantum Communication Systems
  • Oral or Poster Acceptable
Molecular Vibration Spectroscopy with Undetected Photons
QTu8B.18
Molecular Vibration Spectroscopy with Undetected Photons

Tai Hyun Yoon
Center for Molecular Spectroscopy and Dynamics

  • Quantum Poster
  • Optical & Laser Technology for QIST Systems
  • Oral or Poster Acceptable
Molecular Vibration Spectroscopy with Undetected Photons
QTu8B.18
Molecular Vibration Spectroscopy with Undetected Photons

Tai Hyun Yoon
Center for Molecular Spectroscopy and Dynamics

  • Quantum Poster
  • Optical & Laser Technology for QIST Systems
  • Oral or Poster Acceptable
Scaling-up quantum technologies with solid-state single-photon sources
QTu8B.19
Scaling-up quantum technologies with solid-state single-photon sources

Niccolo Somaschi
Quandela

  • Quantum Poster
  • Quantum Photonic Sources & Detectors
  • Oral or Poster Acceptable
Scaling-up quantum technologies with solid-state single-photon sources
QTu8B.19
Scaling-up quantum technologies with solid-state single-photon sources

Niccolo Somaschi
Quandela

  • Quantum Poster
  • Quantum Photonic Sources & Detectors
  • Oral or Poster Acceptable
Frequency-Domain Quantum Interference with Correlated Photons from an Integrated Microresonator
QW6A.1
Frequency-Domain Quantum Interference with Correlated Photons from an Integrated Microresonator

Chaitali Joshi
Cornell University

  • Quantum Poster
  • Integrated-optics Quantum Platforms & Devices
  • Oral or Poster Acceptable
Monolithically integrated membrane-in-the-middle cavity optomechanical systems
QW6A.2
Monolithically integrated membrane-in-the-middle cavity optomechanical systems

Lintong Bu
University of Alberta

  • Quantum Poster
  • Integrated-optics Quantum Platforms & Devices
  • Oral Only
Experimental Measurement-Device-Independent Quantum Key Distribution with Uncharacterized Sources
QW6A.3
Experimental Measurement-Device-Independent Quantum Key Distribution with Uncharacterized Sources

Qin Wang
Nanjing Univ Posts & Telecomm

  • Quantum Poster
  • Quantum Communication Systems
  • Oral or Poster Acceptable
A Coherently-Boosted SU(1,1) Interferometer for High-Bandwidth Analog Photonics
QW6A.4
A Coherently-Boosted SU(1,1) Interferometer for High-Bandwidth Analog Photonics

Neal Spellmeyer
MIT Lincoln Laboratory

  • Quantum Poster
  • Quantum Metrology & Sensors
  • Oral or Poster Acceptable
Quantum bounds to localization of partially coherent emitters
QW6A.5
Quantum bounds to localization of partially coherent emitters

Sultan Abdul Wadood
University of Rochester

  • Quantum Poster
  • Quantum Metrology & Sensors
  • Oral or Poster Acceptable
Quantum Correlations with Human-Scale Oscillators in LIGO
QW6A.6
Quantum Correlations with Human-Scale Oscillators in LIGO

Haocun Yu
Massachusetts Institute of Technology

  • Quantum Poster
  • Quantum Metrology & Sensors
  • Oral Only