Related stories:
Investigating new materials with ultracold atoms
The investigation of complex materials such as high-temperature superconductors is problematic because of the presence of disorder and many competing interactions in real crystalline materials. "This makes it difficult to identify the role of specific interactions and, in particular, to decide whether repulsive interactions between electrons alone can explain high-temperature superconductivity," says Dr. Theodoulos Costi from the Institute of Solid State Research, Forschungszentrum Jülich, Germany.
Mother of Pearl Secret Revealed
(PhysOrg.com) -- In addition to its iridescent beauty, mother of pearl, or nacre, the inner lining of the shells of abalone, mussels and certain other mollusks, is also renowned for an amazing strength and toughness that has been a long-standing mystery. Now, scientists have brought to light a new aspect of nacre’s nanostructural architecture using the polarized x-ray beams and nanoscale imaging capabilities of the Advanced Light Source (ALS), a national synchrotron facility at the U.S. Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab).
Physicists steer electrons with laser pulses: Method could be used to create custom-made chemical compounds
Theoretical physicist Uwe Thumm and his colleagues Feng He and Andreas Becker not only work with some of the smallest molecules in the universe, but they now have found a way to control the motion of the molecules' building blocks, electrons and nuclei.
Scientists discover quantum mechanical 'hurricanes' form spontaneously
University of Arizona scientists experimenting with some of the coldest gases in the universe have discovered that when atoms in the gas get cold enough, they can spontaneously spin up into what might be described as quantum mechanical twisters or hurricanes.
The Day the World Didn't End
Here's what didn't happen on Sept. 10th:
The world did not end. Switching on the world's largest and most powerful particle accelerator near Geneva, Switzerland, did not trigger the creation of a microscopic black hole. And that black hole did not start rapidly sucking in surrounding matter faster and faster until it devoured the Earth, as sensationalist news reports had suggested it might.
Study reveals principles behind stability and electronic properties of gold nanoclusters
A report published in the July 8 issue of the journal
Proceedings of the National Academy of Sciences (
PNAS) is the first to describe the principles behind the stability and electronic properties of tiny nanoclusters of metallic gold. The study, which confirms the "divide and protect" bonding structure, resulted from the work of researchers at four universities on two continents.
Unknown molecule opens the door to quantum computing
The odd behavior of a molecule in an experimental silicon computer chip has led to a discovery that opens the door to quantum computing in semiconductors.
Scientists discover that protons partner with neutrons more often than with other protons
Fast-moving protons are much more likely to pair up with fast-moving neutrons than with other protons in the nuclei of atoms, according to a recent experiment performed at the U.S. Department of Energy's Thomas Jefferson National Accelerator Facility. The experiment confirms previous theoretical research led by Mark Strikman, a professor of physics at Penn State. Strikman's theory predicts that fast-moving protons have a nearly 100-percent tendency to form pairs with other fast-moving protons or neutrons, and that the majority of these pairings are between protons and neutrons. Strikman also suggested the experimental strategy that the researchers at the Thomas Jefferson National Accelerator Facility used to make their discovery.
