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High-precision radar for the steel industry

March 2, 2015 8:42 am | by Fraunhofer-Gesellschaft | News | Comments

Steel is the most important material in vehicle and machinery construction. Large quantities of offcuts and scraps are left over from rolling and milling crude steel into strip steel. New radar from Fraunhofer researchers measures the width of the strip during fabrication to an accuracy of micrometers and helps to minimize scrap.

First ever photograph of light as both a particle and wave

March 2, 2015 8:34 am | by EPFL | Videos | Comments

Light behaves both as a particle and as a wave. Since the days of Einstein, scientists have been trying to directly observe both of these aspects of light at the same time. Now, scientists at EPFL have succeeded in capturing the first-ever snapshot of this dual behavior.

Life “not as we know it” possible on Saturn’s moon Titan

March 2, 2015 8:26 am | by Syl Kacapyr, Cornell Univ. | News | Comments

A new type of methane-based, oxygen-free life form that can metabolize and reproduce similar to life on Earth has been modeled by a team of Cornell Univ. researchers. Taking a simultaneously imaginative and rigidly scientific view, chemical engineers and astronomers offer a template for life that could thrive in a harsh, cold world: specifically Titan, the giant moon of Saturn.

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Innovative wireless sensor technology yields better energy efficiency

March 2, 2015 8:17 am | by Sara Shoemaker, Oak Ridge National Laboratory | News | Comments

Regulating comfort in small commercial buildings could become more efficient and less expensive thanks to an innovative low-cost wireless sensor technology being developed by researchers at Oak Ridge National Laboratory. Buildings are responsible for about 40% of the energy consumed in the U.S. Studies indicate that advanced sensors and controls have the potential to reduce the energy consumption of buildings by 20 to 30%.

First detailed microscopy evidence of bacteria at the lower size limit of life

March 2, 2015 8:08 am | by Dan Krotz, Lawrence Berkeley National Laboratory | News | Comments

Scientists have captured the first detailed microscopy images of ultra-small bacteria that are believed to be about as small as life can get. The existence of ultra-small bacteria has been debated for two decades, but there hasn’t been a comprehensive electron microscopy and DNA-based description of the microbes until now.

Aerogel catalyst shows promise for fuel cells

March 2, 2015 7:54 am | by Mike Williams, Rice Univ. | News | Comments

Graphene nanoribbons formed into a 3-D aerogel and enhanced with boron and nitrogen are excellent catalysts for fuel cells, even in comparison to platinum, according to Rice Univ. researchers. A team led by materials scientist Pulickel Ajayan and chemist James Tour made metal-free aerogels from graphene nanoribbons and various levels of boron and nitrogen to test their electrochemical properties.

Moving molecule writes letters

February 27, 2015 11:55 am | by Andreas Battenberg, TUM | News | Comments

On the search for high-performance materials for applications such as gas storage, thermal insulators or dynamic nanosystems it’s essential to understand the thermal behavior of matter down to the molecular level. Classical thermodynamics average over time and over a large number of molecules. Within a 3-D space single molecules can adopt an almost infinite number of states, making the assessment of individual species nearly impossible.

Untangling DNA with a droplet of water, pipet and polymer

February 27, 2015 11:42 am | by KU Leuven | News | Comments

Researchers have long sought an efficient way to untangle DNA in order to study its structure under a microscope. Now, chemists and engineers at KU Leuven have devised a strikingly simple and effective solution: They inject genetic material into a droplet of water and use a pipet tip to drag it over a glass plate covered with a sticky polymer.

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Sun has more impact on climate in cool periods

February 27, 2015 10:24 am | by Aarhus Univ. | News | Comments

The activity of the sun is an important factor in the complex interaction that controls our climate. New research now shows the impact of the sun isn’t constant over time, but has greater significance when the Earth is cooler. There has been much discussion as to whether variations in the strength of the sun have played a role in triggering climate change in the past.

3-D printed parts to provide low-cost, custom alternatives for lab equipment

February 27, 2015 10:14 am | by Raphael Rosen, Princeton Plasma Physics Laboratory Communications | News | Comments

The 3-D printing scene, a growing favorite of do-it-yourselfers, has spread to the study of plasma physics. With a series of experiments, researchers at the Princeton Plasma Physics Laboratory have found that 3-D printers can be an important tool in laboratory environments.

QR codes engineered into cybersecurity protection

February 27, 2015 10:03 am | by Colin Poitras, UConn | News | Comments

QR, or quick response, codes have been used to convey information about everything from cereals to cars and new homes. But, Univ. of Connecticut researchers think the codes have a greater potential: protecting national security. Using advanced 3-D optical imaging and extremely low light photon counting encryption the team has taken a QR code and transformed it into a high-end cybersecurity application.

New filter could advance terahertz data transmission

February 27, 2015 9:53 am | by Vincent Horiuchi, Univ. of Utah | News | Comments

Univ. of Utah engineers have discovered a new approach for designing filters capable of separating different frequencies in the terahertz spectrum, the next generation of communications bandwidth that could allow cellphone users and Internet surfers to download data a thousand times faster than today. Once the filter is designed, it can be fabricated using an off-the-shelf inkjet printer.

Monster black hole discovered at cosmic dawn

February 27, 2015 8:33 am | by Daniel Stolte, Univ. of Arizona Communications | News | Comments

Scientists have discovered the brightest quasar in the early universe, powered by the most massive black hole yet known at that time. The discovery of this quasar, named SDSS J0100+2802, marks an important step in understanding how quasars, the most powerful objects in the universe, have evolved from the earliest epoch, only 900 million years after the Big Bang, which is thought to have happened 13.7 billion years ago.

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Electrochemical “fingers” unlock battery’s inner potential

February 27, 2015 8:18 am | by Justin Eure, Brookhaven National Laboratory | Videos | Comments

Lithium-ion batteries unleash electricity as electrochemical reactions spread through active materials. Manipulating this complex process and driving the reactions into the energy-rich heart of each part of these active materials is crucial to optimizing the power output and ultimate energy capacity of these batteries. Now, scientists have mapped these atomic-scale reaction pathways and linked them to the battery’s rate of discharge.

Research signals big future for quantum radar

February 27, 2015 7:55 am | by David Garner, Univ. of York | News | Comments

A prototype quantum radar that has the potential to detect objects which are invisible to conventional systems has been developed by an international research team led by a quantum information scientist at the Univ. of York. The new breed of radar is a hybrid system that uses quantum correlation between microwave and optical beams to detect objects of low reflectivity, such as cancer cells or aircraft with a stealth capability.

“Ecosystem services” help assess ocean energy development

February 27, 2015 7:47 am | by David Orenstein, Brown Univ. | News | Comments

With many projects under development in coastal regions such as New England, tidal power seems poised to join other U.S. commercial power sources. A new study finds that little is known of the impacts that tidal power projects may have on coastal environments and the people who depend on them, but that the perspective of “ecosystem services” could provide a promising framework for evaluating impacts.

Study maps extroversion types in brain’s anatomy

February 26, 2015 12:43 pm | by David Orenstein, Brown Univ. | News | Comments

Everyday experience and psychological studies alike tell us there are two different types of extroverts: The gregarious “people-persons” and the ambitious “go-getters”. A new study shows that these overlapping yet distinct personalities have commensurately overlapping yet distinct signatures in the anatomy of the brain.

Research predicts when, how materials will act

February 26, 2015 12:09 pm | by Kathleen Haughney, Florida State Univ. | News | Comments

In science, it’s commonly known that materials can change in a number of ways when subjected to different temperatures, pressures or other environmental forces.  A material might melt or snap in half. And for engineers, knowing when and why that might happen is crucial information.  Now, a Florida State Univ. researcher has laid out an overarching theory that explains why certain materials act the way they do.

Building blocks of the future defy logic

February 26, 2015 11:58 am | by Cassi Camilleri, Univ. of Malta | News | Comments

Wake up in the morning and stretch; your midsection narrows. Pull on a piece of plastic at separate ends; it becomes thinner. So does a rubber band. One might assume that when a force is applied along an axis, materials will always stretch and become thinner. Wrong.

Physicists find new form of quantum friction

February 26, 2015 11:40 am | by Ike Sweitlitz, Yale Univ. | News | Comments

Physicists at Yale Univ. have observed a new form of quantum friction that could serve as a basis for robust information storage in quantum computers in the future. The researchers are building upon decades of research, experimentally demonstrating a procedure theorized nearly 30 years ago.

Using “fuzzy logic” to optimize hybrid solar/battery systems

February 26, 2015 11:11 am | by American Institute of Physics | News | Comments

How did fuzzy logic help a group of researchers in Tunisia and Algeria create an ideal photovoltaic system that obeys the supply-and-demand principle and its delicate balance? In the Journal of Renewable & Sustainable Energy, the group describes a new sizing system of a solar array and a battery in a standalone photovoltaic system that is based on fuzzy logic.

A mollusk of a different stripe

February 26, 2015 10:59 am | by Jennifer Chu, MIT News Office | Videos | Comments

The blue-rayed limpet is a tiny mollusk that lives in kelp beds along the coasts of Norway, Iceland, the U.K., Portugal and the Canary Islands. These diminutive organisms might escape notice entirely, if not for a very conspicuous feature: bright blue dotted lines that run in parallel along the length of their translucent shells. Depending on the angle at which light hits, a limpet’s shell can flash brilliantly even in murky water.

New insight found in black hole collisions

February 26, 2015 10:50 am | by Amanda Siegfried, UT Dallas | News | Comments

New research by a Univ. of Texas, Dallas astrophysicist provides revelations about the most energetic event in the universe: the merging of two spinning, orbiting black holes into a much larger black hole. The work provides, for the first time, solutions to decades-old equations that describe conditions as two black holes in a binary system orbit each other and spiral in toward a collision.

Warming up the world of superconductors

February 26, 2015 8:50 am | by Robert Perkins, Univ. of Southern California | News | Comments

A superconductor that works at room temperature was long thought impossible, but scientists at the Univ. of Southern California may have discovered a family of materials that could make it reality. The team found that aluminum "superatoms" appear to form Cooper pairs of electrons at temperatures around 100 K. Though 100 K is still pretty chilly, this is an increase compared to bulk aluminum metal.

Researchers bend highly energetic electron beam with crystal

February 26, 2015 8:39 am | by SLAC National Accelerator Laboratory | News | Comments

An international team of researchers working at SLAC National Accelerator Laboratory has demonstrated that a bent silicon crystal can bend the paths of focused, very energetic electron beams much more than magnets used today. The method could be of interest for particle accelerator applications such as next-generation x-ray lasers that will help scientists unravel atomic structures and motions in unprecedented detail.

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