Physicists at NIST, including JILA Fellow Ana Maria Rey, have entangled the mechanical motion and electronic properties of a tiny blue crystal, giving it a quantum edge in measuring electric fields with record sensitivity that may enhance our understanding of the universe.
UNM Regents' Professor Ivan Deutsch, a collaborator with the CU Boulder-led Q-SEnSE, will lead the Center for Quantum Information and Control (CQuIC). The center will not only lead to advances in QIS, but new educational opportunities for the next generation of scientists as well.
“We've released two commercial systems, system model H0 and H1, and I'm building and getting ready for the next model, H2,” said Sara Campbell, who worked on cutting-edge physics projects during her PhD at JILA. As the quantum computing sector swells with activity, Campbell’s job becomes more important than ever.
This year’s workshop will be held virtually and asynchronously, join in any time zone on your own schedule! The conference will be held on the popular communication platform Slack, where each presenter will have their own channel. Attendees can ask questions and comment on the presenter’s video presentation, and presenters will be asked to monitor their channel to answer questions. Many areas of interests are welcome in relation to Silicon Quantum Electronics.
As with previous Silicon Quantum Electronic Workshops, students and researchers in the field of silicon quantum electronics are encouraged to submit abstracts. Abstracts will be chosen based on their content and relevancy to the workshop, and presenters will have their own platform to upload a pre-recorded video presentation to discuss their research with the community. We will also have opportunities for meeting our global quantum community with multiple networking events throughout the week, catered to different time zones.