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.”
U of I Professor Joaquin Vieira and his team built all of the cryogenic optics for the SPT-3G camera, which were a critical component of the project. This entailed developing a new type of anti-reflection coating for the optics that could survive down to 0.3 degrees above absolute zero, a feat that required about four years of research and development.
Dr. Hong-Yan Shih, a postdoctoral researcher at the Department of Physics and at the Carl R. Woese Institute for Genomic Biology at the University of Illinois at Urbana-Champaign, has been selected for the 2019 Dissertation Award in Statistical and Nonlinear Physics of the American Physical Society (APS). This award recognizes exceptional young scientists who have performed original doctoral thesis work of outstanding scientific quality in the area of statistical and nonlinear physics. Shih will be presented with the award at the APS March Meeting, where she will give an invited talk.
Shih completed her doctoral dissertation titled “Spatial-temporal patterns in evolutionary ecology and fluid turbulence” in 2017 working in Professor Nigel Goldenfeld’s theoretical physics group. It explores “the turbulence of ecosystems and the ecology of turbulence.” In her thesis, Shih reports on three projects at the boundaries of ecology and evolution, analyzed using methods from statistical mechanics, and a fourth project that made a major advance to the important problem of the laminar-turbulent transition of fluids in pipes. This latter problem was first scientifically studied in 1883, and Shih’s contribution arose from an unusual perspective.
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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.
Hear leading-edge scientists explain what we know about one of the greatest mysteries of our time. What could it be? How do we know it’s there? And what ingenious methods are scientists, working in different subdisciplines of physics and astronomy around the globe, using to detect dark matter? Astrophysicist Jeff Filippini, astronomer Felipe Menanteau, experimental nuclear physicist Liang Yang, theoretical particle physicist Jessie Shelton, and experimental particle physicist Ben Hooberman provide an accessible overview of some of the most exciting scientific research that is ongoing today.
why is it that pressure applied at a point in an enclosed fluid has to be transmitted equally throughout the fluid? bearing in mind that different points of the fluid are going to be at different heights from the force being applied
Dr. Carl Rodriguez, MIT
464 Loomis Lab
280 MRL
Kent Irwin, Stanford University
141 Loomis Laboratory
Dr. Peter Melchior, Princeton University
134 Astronomy