Protecting sensitive data in the age of quantum computing requires cutting-edge solutions. Learn how quantum key distribution (QKD) and post-quantum cryptography (PQC) may offer a robust defense strategy.
Register for the upcoming summer lecture series on quantum sensors covering Rydberg receivers, atomic clocks, inertial sensors and atomic magnetometers
During this hybrid event, attendees will hear from a broad lineup of distinguished speakers, participate in interactive breakout sessions, and have ample time for networking with industry peers.
Act now: Registration for optional tours of local quantum facilities closes on June 14.
During this lecture, Professor Thomas F. Gallagher will describe what a Rydberg atom is, give some of the early history of the detection of microwave and FIR radiation, and introduce electromagnetically-induced transparency (EIT) and the detection of microwaves using Rydberg EIT.
This talk is the first of three lectures introducing Rydberg RF receivers, their applications to national security, and the latest state-of-the-art.
Interested in a career in quantum information science and technology (QIST) or learning more about this emerging technology? The QED-C Office Hours program offers students the opportunity to meet one-on-one with current practitioners in QIST. Register today for the June session.
Dr. Chris Holloway will introduce the key performance parameters for measuring the quality of a Rydberg receiver and how those performance parameters are weighted for commonly discussed applications. He will also compare Rydberg receiver performance against traditional technologies.
This talk is the second of three lectures introducing Rydberg RF receivers, their applications to national security, and the latest state-of-the-art.
Dive deep into the world of quantum sensing with leading experts in the quantum sensing field. Presenters include representatives from Northrop Grumman, SBQuantum, AOSense, and Castor Optics. A recording will be available to the public following the Plenary Meeting.
Poolad Imany from Icarus Quantum shared the progress of their work towards efficient on-demand sources of single photons, and entangled photon pairs using quantum dots. Details on the source characteristics were shared, along with challenges to be addressed and a roadmap of their plans.
This event featured presentations on quantum error corrections from student/post-doc researchers at The University of Cambridge and Harvard, followed by a Q&A.
The Small Business Innovation Research (SBIR) program for CHIPS for America – CHIPS Metrology is seeking applications from eligible applicants to explore the technical merit or feasibility of an innovative idea or technology to develop a viable product or service that will be introduced to the commercial microelectronics marketplace.
.png?upscale=true&width=360&upscale=true&name=QEDC%20PNG%20white%20(1).png)
-1.png?upscale=true&width=1200&upscale=true&name=Welcome%20new%20QED-C%20Member%20Companies%20(1200%20x%20450%20px)-1.png)
![QM live_Quantum Sensing II [Autosaved]](https://hs-8441224.f.hubspotemail.net/hub/8441224/hubfs/QM%20live_Quantum%20Sensing%20II%20%5BAutosaved%5D.png?upscale=true&width=520&upscale=true&name=QM%20live_Quantum%20Sensing%20II%20%5BAutosaved%5D.png)
%20(1).png?upscale=true&width=300&upscale=true&name=QEDC%20PNG%20midnight%20(2)%20(1).png)