UD faculty members discuss 2013 prize-winners at annual symposium
Today’s chemists might work at a computer as often as in a laboratory, medical researchers studying conditions such as diabetes rely on understanding how cells carry and deposit materials within the body, and average investors in the market increasingly buy index funds to average out the short-term ups and downs of individual stocks.
The discoveries that led to these changes are among the work that was honored by this year’s Nobel Prizes. (more…)
Leslie Rosenberg and his colleagues are about to go hunting. Their quarry: A theorized-but-never-seen elementary particle called an axion.
The search will be conducted with a recently retooled, extremely sensitive detector that is currently in a testing and shakeout phase at the University of Washington’s Center for Experimental Nuclear Physics and Astrophysics. (more…)
ANN ARBOR, Mich.— Whether the Higgs boson exists could be settled by the end of summer, say University of Michigan physicists involved in the search for the missing piece of particle physics’ Standard Model.
“We’re zooming in,” said Jianming Qian, physics professor in the College of Literature, Science & the Arts. “We are increasing the data set and improving our search algorithms. With certain luck, we may be able to discover it this summer, but it depends on nature.”
Qian is one of the 28 U-M researchers involved in experiments at CERN’s Large Hadron Collider (LHC) in Switzerland. He’ll spend most of his time through August in Geneva, where more than 1,000 scientists from around the world have been looking for Higgs since the collider turned on about four years ago. (more…)
*Collaboration reveals results from 100-day experiment*
Today, scientists from the XENON collaboration announced the result from their search for the elusive component of our universe known as dark matter. After analyzing one hundred days of data taken with the XENON100 experiment, they see no evidence for the existence of Weakly Interacting Massive Particles (WIMPs), the leading candidates for the mysterious dark matter. The XENON100 experiment is operated deep underground at the Gran Sasso National Laboratory of the Italian National Institute for Physics (INFN). (more…)
*Next Generation Blue Gene prototype judged most efficient by Green500.org*
ARMONK, N.Y., – 19 Nov 2010: IBM supercomputers are the most energy efficient supercomputers in the world, according to the latest Supercomputing ‘Green500 List’ announced by Green500.org. A prototype of IBM’s next generation Blue Gene supercomputer is #1 on the list.
The list shows that 15 of the top 25 most energy efficient supercomputers in the world are built on IBM high-performance computing technology. The list includes supercomputers from China to Germany and the United States that are being used for a variety of applications such as astronomy, climate prediction and pharmaceutical research. IBM also holds over half of the top 100 positions on this list.(more…)