Using state-of-the-art lab techniques and powerful computer simulations, Johns Hopkins researchers have discovered how atoms pack themselves in unusual materials known as metallic glasses. Their findings should help scie...
Aspen Technology, Inc. has announced the availability of its new generation of applications for the design, rating and simulation of heat exchangers. Aspen Tasc+™, for shell & tube heat exchangers, and Aspen Ac...
A team based in Livermore has shed some light on the phase diagram of carbon at high pressure and temperature.
In particular, the authors determined the solid/liquid and solid/solid phase boundaries for pressures up ...
Scientists from the Max Planck Institute for Metals Research in Stuttgart, Germany and the Massachusetts Institute of Technology in Cambridge, Massachusetts have simulated the atomistic details of how cracks propagate in...
You may think making a three-point turn in your car is easy, but how about doing the same with a single-charged atom?
That's what scientists have achieved for the first time, marking a major breakthrough for physi...
An MIT researcher's atom-by-atom simulation of cracks forming and spreading may help explain how materials fail in nanoscale devices, airplanes and even in the Earth itself during a quake. This work, which could impa...
With the exception of lasers and free-electron lasers, there hasn't been another fundamental way to produce coherent light for close to 50 years.
However, a group of researchers from Lawrence Livermore National L...
Scientists at the University of Liverpool are working with leading oil companies to further understanding of the nature of oil and gas reservoirs within deeply buried submarine channels.
Professor Stephen Flint and D...
The U.S. Department of Energy awarded $2 million in grants to three MIT projects as part of an initiative to encourage nuclear energy research and development in the United States.
The research will be done through M...
In the past it has been impossible to predict crystal structures with reasonable computing efforts. Even for crystals with relatively few atoms per unit cell the number of possible structures is astronomically large. Now...
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