- High Energy Physics
- Particle Physics
Anne Sickles is co-convener of the ATLAS Heavy Ion Working Group, which will use these data.
A two-day summit in Chicago taking place November 8 and 9 has brought together leading experts in quantum information science to advance U.S. efforts in what’s been called the next technological “space race”—and to position Illinois at the forefront of that race. The inaugural Chicago Quantum Summit, hosted by the Chicago Quantum Exchange, includes high-level representation from Microsoft, IBM, Alphabet Inc.’s Google, the National Science Foundation, the U.S. Department of Energy, the U.S. Department of Defense, and the National Institute of Standards and Technology.
The University of Illinois at Urbana-Champaign recently joined the Chicago Quantum Exchange as a core member, making it one of the largest quantum information science (QIS) collaborations in the world. The exchange was formed last year as an alliance between the University of Chicago and the two Illinois-based national laboratories, Argonne and Fermilab.
Representing the U of I at the summit are physics professors Brian DeMarco, Paul Kwiat, and Dale Van Harlingen, who are key players in the planned Illinois Quantum Information Science and Technology Center (IQUIST) on the U of I campus. The U of I news bureau announced last week the university’s $15-million commitment to the new center, which will form a collaboration of physicists, engineers, and computer scientists to develop new algorithms, materials, and devices to advance QIS.
Loomis Laboratory has been awarded a third-place prize in the Energy Conservation Incentive Program of the University of Illinois at Urbana-Champaign. This program, administered by Facilities and Services, both funds and recognizes efforts to reduce energy consumption through facilities upgrades. A plaque commemorating the award will be mounted in the Walnut Hallway. The award comes with a $26,000 prize for additional energy projects.
The University of Illinois at Urbana-Champaign is making a $15 million investment in the emerging area of quantum information science and engineering, a field poised to revolutionize computing, communication, security, measurement and sensing by utilizing the unique and powerful capabilities of quantum mechanics.
“We don’t know because no one has tried it,” says Rebecca Holmes, a physicist at Los Alamos National Laboratory in New Mexico. Three years ago, when she was a graduate student at the University of Illinois at Urbana-Champaign, Holmes was part of a team led by Paul Kwiat that showed people could detect short bursts of light consisting of just three photons. In 2016, a competing group of researchers, led by physicist Alipasha Vaziri at Rockefeller University in New York, found that humans can indeed see single photons. Seeing, though, might not accurately describe the experience. Vaziri, who tried out the photon-glimpsing himself, told the journal Nature, “It’s not like seeing light. It’s almost a feeling, at the threshold of imagination.”
Support our commitment to train the next generation of researchers and teachers.
Now through the end of 2019, The Grainger Foundation will match all donations made to the College's Engineering Visionary Scholarship Initiative.
Are you ready to study the glow of black holes? Or how superconductors can carry electricity without resistance? Physics opens the secrets of the universe. Illinois has a long tradition of excellence in physics, and we continue to advance the frontiers of science every day. Watch the video!
In the first science-based escape room, it's up to you and your team to save the free world from evil forces plotting its destruction, and you have precisely 60 minutes to do it. You must find out what happened to Professor Schrödenberg, a University of Illinois physicist who disappeared after developing a top-secret quantum computer. The previous groups of special agents assigned to the case disappeared while investigating the very room in which you now find yourself locked up, Schrödenberg's secret lab.
Is there a way to harness the energy binding matter and anti-matter together, and if it was possible, would it be violating the law of conservation of energy?
Hoi Chun (Adrian) Po, Massachusetts Institute of Technology
Javier Duarte, Fermi National Laboratory
Dr. Paul Sutter, Ohio State University
Kenneth Chang (New York Times), David Ehrenstein (American Physical Society), and Phil Schewe (JQI, U. of Maryland)
204 Loomis (Interaction Room)