CQT Talk by Joshua Bienfang, NIST

Title: Low-noise photon counting above 100 × 106 counts per second with a high-efficiency reach-through single-photon avalanche diode system
Date/Time: 27-May, 08:30AM
Venue: Online via Zoom

Abstract: We demonstrate a method that allows a high-efficiency single-photon-avalanche diode (SPAD) with a thick absorption region (>10 μm) to count single photons at rates significantly higher than previously demonstrated. We apply large (>30 V) AC bias gates to the SPAD at 1 GHz and detect minute avalanches with a discrimination threshold of 5(1) mV by means of radio frequency interferometry. We measure a reduction by a factor of ≈500 in the average charge per avalanche when compared to operation in its traditional active-quenching module and a relative increase in >19% in detection efficiency at 850 nm. The reduction in charge strongly suppresses self-heating effects in the diode that can degrade performance at high avalanche rates. We show that the single-photon detection system maintains high efficiency at count rates exceeding 10E8 per second.

DOI: https://doi.org/10.1063/5.0041984

Zoom link:
https://nus-sg.zoom.us/j/83286179059?pwd=K2dWaFJ4c0hJL0phKytTYytwbDhwQT09

QEP Workshop

Title: Quantum Sensing for Health and Life sciences 
Date/Time: 19-May, 03:00PM
Venue: Online Via Zoom

The event will launch discussion of opportunities to develop quantum sensors for these domains in Singapore, to inform a later call for proposals from the QEP office. The Programme is open to public registration.  This is organized by the national Quantum Engineering Programme (QEP).   
 
Registration: https://nus-sg.zoom.us/meeting/register/tZUof-igrD8jGN0OO1cAiuVi8FgrYZH2C25Z
 
Programme:  
3:00 pm - Welcome by Alexander Ling, Director, QEP
3:05 pm - Prof. Joseph Sung, Senior Vice President (Health and Life Sciences), NTU - Medical Imaging our Dream
3:15 pm - Prof. Robert JT Morris, Chief Technology Strategist for the Ministry of Health Transformation (MOHT) - What are the Health Challenges where Quantum Engineering might be able to help?
3:25 pm - Prof. Fedor Jelezko, Director of the Institute of Quantum Optics, University Ulm - Diamond spin qubits for quantum sensing
3:35 pm - Dr Mathieu Munsch, CEO, Qnami  - Building quantum sensors for the industry
3:45 pm - Dr Leonid Krivitsky, Head Of Quantum Technologies for Engineering Department at A*STAR - Hyperspectral infrared microscopy with visible light
3:55 pm - Dr Lin Wu, Senior scientist, A*STAR - Quantum nanophotonics for molecular sensing
4:05-4:30 Discussion
 
The call for proposals will be driven by a set of Challenge Statements. Draft Challenge Statements will be made available to participants in this workshop and the broader quantum community for comment. 
 
We look forward to the participation of the research and industry communities in this workshop. For more information about QEP, please visit qepsg.org.

CQT Colloquium by Marlan Scully, Texas A&M, Princeton, and Baylor Universities

Title: Using Quantum Mechanics To Detect Covid-19 Disease And More
Date/Time: 27-May, 10:00AM
Venue: Online via Zoom

Abstract: Recently we have been researching the application of, e.g., quantum coherence and quantum entanglement to detect SARS-CoV-2 IgG antibodies [1] and/or RNA [2, 3]. Related work mapping the surface of a single COVID-19 virus [4] and measuring the binding free energy [5] of the virus to the ACE-2 site will be discussed. The connection, if any, between quantum coherence in brain microtubules [6] and superradiance [7] will be presented as time allows.

References:
[1] “Enhancing sensitivity of lateral flow assay with application to SARS-CoV-2”, T. Peng et al., Applied Physics Letters (2020)
[2] “A fiber optic–nanophotonic approach to the detection of antibodies and viral particles of COVID-19”, N. Rajil et al., Nanophotonics (2020)
[3] “FAST CARS: Engineering a laser spectroscopic technique for rapid identification of bacterial spores”, M. Scully et al., PNAS (2002)
[4] “Laser spectroscopic technique for direct identification of a single virus I: FASTER CARS”, V. Deckert et al., PNAS (2020)
[5] “Light and corona: guided-wave readout for coronavirus-spike-protein–host-receptor binding”, I. V. Fedotov et al., Optics Letters (2020)
[6] “Quantum Coherence in (Brain) Microtubules and Efficient Energy and Information Transport”, N. Mavromatos, Journal of Physics: Conference Series (2011)
[7] “The Super of Superradiance”, M. Scully and A. Svidzinsky, Science (2009)
 
Registration:

https://nus-sg.zoom.us/meeting/register/tZAvf-6vrjIqHdPKx9wk3XbItS5Q7hZ8-VKL

After registering, you willreceive a confirmation email containing information about joining the meeting.