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University of Iowa physicist Usha Mallik is at the forefront of the search for a missing particle that could prove whether the Higgs boson—believed to give mass to all matter—exists.
Read more about A Quark Like No Other
In the computational science community, there is a need to train engineers and scientists on how to effectively use current and future high-performance computing (HPC) systems. A couple of years ago, a training program was established by the federal government that would be able to address this deficiency. This program, known as the Argonne Training Program on Extreme-Scale Computing (ATPESC), contains over 100 hours of lectures and hands on training in the span of two weeks.
Read more about My Summer Learning about High-performance Computing from Argonne National Laboratory
A discovery by an international team of researchers from Princeton University, the Georgia Institute of Technology and Humboldt University in Berlin points the way to more widespread use of an advanced technology generally known as organic electronics.
Read more about Breakthrough Could Launch Organic Electronics Beyond Cellphone Screens
The Accelerator Science and Engineering Traineeship program will bring together MSU’s strengths to formulate a graduate student curriculum that will be implemented by physics and astronomy faculty in the College of Natural Science, the College of Engineering and the Facility for Rare Isotope Beams.
Read more about MSU to Establish Training Program to Address National Shortage in Accelerator Scientists, Engineers
By organizing pigments on a DNA scaffold, an MIT-led team of researchers has designed a light-harvesting material that closely mimics the structure of naturally occurring photosynthetic structures.
Read more about Synthetic Circuits Can Harvest Light Energy
A team of researchers from the University of California, Berkeley, the University of California, Davis and the Texas Advanced Computing Center (TACC) published the results of an effort to harness the power of supercomputers to train a deep neural network (DNN) for image recognition at rapid speed.
Read more about Supercomputing Speeds Up Deep Learning Training
Reservoirs of oxygen-rich iron between the Earth’s core and mantle could have played a major role in Earth’s history, including the breakup of supercontinents, drastic changes in Earth’s atmospheric makeup, and the creation of life, according to recent work from an international research team published in National Science Review.
Read more about When Water Met Iron Deep Inside the Earth, It Might Have Created Conditions for Life
MIT engineers have created sensors that can be printed onto plant leaves and reveal when the plants are experiencing a water shortage. This kind of technology could not only save neglected houseplants but, more importantly, give farmers an early warning when their crops are in danger.
Read more about Sensors Applied to Plant Leaves Warn of Water Shortage
An exploding star that continued to shine for nearly two years — unlike most supernovae, which fade after a few weeks — is puzzling astronomers and leading theorists, including UC Berkeley astrophysicist Daniel Kasen, to suggest that the event may be an example of a star so hot that it produces antimatter in its core.
Read more about Puzzling New Supernova May Be From Star Producing Antimatter
Researchers at UC Berkeley and UC Riverside have developed a new, ultrafast method for electrically controlling magnetism in certain metals, a breakthrough that could lead to greatly increased performance and more energy-efficient computer memory and processing technologies.
Read more about Ultrafast Magnetic Reversal Points the Way Toward Speedy, Low-Power Computer Memory
Researchers at the Georgia Institute of Technology, the University of Chicago, and the Argonne National Laboratory have devised experiments that caused polyelectrolyte brush bristles to collapse and then recover from the collapse.
Read more about Perking Up and Crimping the ‘Bristles’ of Polyelectrolyte Brushes
Kent State University faculty and students in the Department of Physics, in the College of Arts and Sciences, recently played a key role in using a new silicon detector technology to examine nuclear collisions that recreate the Big Bang on a tiny scale at Brookhaven National Laboratory.
Read more about Kent State Faculty and Students Play a Key Role in ‘Little Bang’ Being Observed for the First Time With Ultra-High Precision
