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The measured plasma pressure profile and the particle dynamics relating to the loss of axial momentum loss.

Towards high performance electrodeless electric propulsion in space

May 15, 2015 12:07 pm | by Tohoku University | News | Comments

A part of the performance degradation mechanism of the advanced, electrodeless, helicon plasma thruster with a magnetic nozzle, has been revealed. An electric propulsion device is a main engine, and a key piece of technology for space development and exploration. Charged particles are produced by electric discharge and accelerated. Thrust force is equivalent to the momentum exhausted by the device, and spacecraft can thus be propelled.

Researchers used state of the art UV cameras and electron microscopes to analyze the eruptive plumes and ash generated by Volcán de Colima in Mexico

Study attributes varying explosivity to gaseous state within volcanoes

May 15, 2015 12:01 pm | by Alan Williams, Plymouth University | News | Comments

The varying scale and force of certain volcanic eruptions are directly influenced by the distribution of gases within magma inside a volcano’s conduit, according to a new study. Using state-of-the-art equipment, including UV cameras and electron microscopes, researchers led a project to analyze the eruptive plumes and ash generated by Volcán de Colima, the most active volcano in the Americas.

A high harmonic spectrometer © ETH Zurich

Physicists observe attosecond real-time restructuring of electron cloud in molecule

May 15, 2015 11:52 am | by Moscow Institute of Physics and Technology | News | Comments

The recombination of electron shells in molecules, taking just a few dozen attoseconds, can now be viewed “live,” thanks to a new method. To track processes taking virtually no time to happen, scientists used the pump-probe method. First, a molecule was impulsively oriented with one laser pulse. Then a second powerful, low-frequency laser pulse ionized the molecule, which generated high harmonic radiation.

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Scientists have made an important step towards understanding how volcanic eruptions happen, after identifying a previously unrecognized potential trigger. An international team of researchers from the University of Liverpool, Monash University and the Uni

New trigger for volcanic eruptions discovered using jelly and lasers

May 15, 2015 11:46 am | by University of Liverpool | News | Comments

Scientists have made an important step towards understanding how volcanic eruptions happen, after identifying a previously unrecognized potential trigger. An international team of researchers from the University of Liverpool, Monash University and the University of Newcastle (Australia) think their findings could lead to new ways of interpreting signs of volcanic unrest measured by satellites and surface observations.

Samantha Joye, a professor of marine sciences in the Franklin College of Arts and Sciences, studies the oil plumes generated by the 2010 Deepwater Horizon blowout.

Further assessment needed of dispersants used in response to oil spills

May 15, 2015 11:28 am | by Alan Flurry, University of Georgia | News | Comments

New commentary argues for further in-depth assessments of the impacts of dispersants on microorganisms to guide their use in response to future oil spills. After the Deepwater Horizon spill, dispersants were used as a first line of defense, even though little is known about how they affect microbial communities or the biodegradation activities they are intended to spur.

Researchers have developed a novel device that may allow individuals to feel hot, cold and the sense of touch through a prosthetic device.

Device may allow sensations in prosthetic hands

May 15, 2015 11:21 am | by Beth Miller, Washington University in St. Louis | News | Comments

To the nearly 2 million people in the United States living with the loss of a limb, including U.S. military veterans, prosthetic devices provide restored mobility, yet lack sensory feedback. A team of engineers and researchers at Washington University in St. Louis is working to change that so those with upper limb prosthetics can feel hot and cold and the sense of touch through their prosthetic hands.

Nano-transistor assesses your health via sweat

May 15, 2015 9:23 am | by EPFL | News | Comments

Made from state-of-the-art silicon transistors, an ultra-low power sensor enables real-time scanning of the contents of liquids, such as perspiration. Compatible with advanced electronics, this technology boasts exceptional accuracy – enough to manufacture mobile sensors that monitor health.

Within colors of bees and butterflies, an optical engineer’s dream is realized

May 15, 2015 9:10 am | by Yale | News | Comments

Evolution has created in bees, butterflies, and beetles something optical engineers have been struggling to achieve for years — precisely organized biophotonic crystals that can be used to improve solar cells, fiber-optic cables, and even cosmetics and paints.

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New test detects drug use from a single fingerprint

May 15, 2015 8:56 am | by University of Surrey | News | Comments

Research has demonstrated a new, non-invasive test that can detect cocaine use through a simple fingerprint. For the first time, this new fingerprint method can determine whether cocaine has been ingested, rather than just touched.

In evolution, “house of cards” model wins

May 14, 2015 4:44 pm | by Bill Hathaway, Yale Univ. | News | Comments

Using sophisticated modeling of genomic data from diverse species, Yale Univ. researchers have answered a longstanding question about which competing model of evolution works best. Their research suggests that the “house of cards” model explains evolutionary processes better than the theory that species undergo the accumulation of many mutations with small effects.

First large-scale graphene fabrication

May 14, 2015 4:32 pm | by Ron Walli, Oak Ridge National Laboratory | News | Comments

One of the barriers to using graphene at a commercial scale could be overcome using a method demonstrated by researchers at Oak Ridge National Laboratory. Graphene, a material stronger and stiffer than carbon fiber, has enormous commercial potential but has been impractical to employ on a large scale, with researchers limited to using small flakes of the material.

Geologists fine-tune search for life on Mars

May 14, 2015 2:23 pm | by Brendan Lynch, KU News Service | Videos | Comments

For centuries, people have imagined the possibility of life on Mars. But long-held dreams that Martians could be invaders of Earth, or little green men, or civilized superbeings, all have been undercut by missions to our neighboring planet that have, so far, uncovered no life at all.

CLAIRE brings electron microscopy to soft materials

May 14, 2015 12:37 pm | by Lynn Yarris, Lawrence Berkeley National Laboratory | News | Comments

Soft matter encompasses a broad swath of materials, including liquids, polymers, gels, foam and biomolecules. At the heart of soft materials, governing their overall properties and capabilities, are the interactions of nano-sized components. Observing the dynamics behind these interactions is critical to understanding key biological processes.

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New target for anti-malaria drugs

May 14, 2015 9:06 am | by Helen Knight, MIT News correspondent | News | Comments

A new target for drug development in the fight against the deadly disease malaria has been discovered by researchers at Massachusetts Institute of Technology. In a recently published paper, the researchers describe how they identified the drug target while studying the way in which the parasites Toxoplasma gondii, which causes toxoplasmosis, and Plasmodium, which causes malaria, access vital nutrients from their host cells.

Digitizing neurons

May 14, 2015 8:21 am | by Morgan McCorkle, Oak Ridge National Laboratory | News | Comments

Supercomputing resources at Oak Ridge National Laboratory will support a new initiative designed to advance how scientists digitally reconstruct and analyze individual neurons in the human brain. Led by the Allen Institute for Brain Science, the BigNeuron project aims to create a common platform for analyzing the 3-D structure of neurons.

Reducing greenhouse gas emissions

May 14, 2015 8:09 am | by American Chemical Society | News | Comments

Trapping carbon dioxide emissions from power plants and various industries could play a significant role in reducing greenhouse gas emissions in the future. But current materials that can collect carbon dioxide have low capacities or require very high temperatures to work. Scientists are making progress toward a more efficient alternative, described in Chemistry of Materials, that could help make carbon capture less energy-intensive.

Researchers build new fermion microscope

May 14, 2015 7:50 am | by Jennifer Chu, MIT News Office | News | Comments

Fermions are the building blocks of matter, interacting in a multitude of permutations to give rise to the elements of the periodic table. Without fermions, the physical world would not exist. Examples of fermions are electrons, protons, neutrons, quarks and atoms consisting of an odd number of these elementary particles. Because of their fermionic nature, electrons and nuclear matter are difficult to understand theoretically. 

Discovered: “Swing-dancing” pair of electrons

May 13, 2015 4:45 pm | by Joe Miksch, Univ. of Pittsburgh | News | Comments

A research team led by the Univ. of Pittsburgh’s Jeremy Levy has discovered electrons that can “swing dance.” This unique electronic behavior can potentially lead to new families of quantum devices. Superconductors form the basis for magnetic resonance imaging devices as well as emerging technologies such as quantum computers. At the heart of all superconductors is the bunching of electrons into pairs.

New shortcut to solar cells

May 13, 2015 4:38 pm | by Mike Williams, Rice Univ. | News | Comments

Rice Univ. scientists have found a way to simplify the manufacture of solar cells by using the top electrode as the catalyst that turns plain silicon into valuable black silicon. Black silicon is silicon with a highly textured surface of nanoscale spikes or pores that are smaller than the wavelength of light. The texture allows the efficient collection of light from any angle, at any time of day.

Experiments first to observe rare subatomic process

May 13, 2015 4:30 pm | by Fermi National Accelerator Laboratory | News | Comments

Two experiments at the Large Hadron Collider at the European Organization for Nuclear Research (CERN) in Geneva, Switzerland, have combined their results and observed a previously unseen subatomic process. As published in Nature, a joint analysis by the CMS and LHCb collaborations has established a new and rare decay of the Bs particle (a heavy composite particle consisting of a bottom antiquark and a strange quark) into two muons.

Nanomaterials inspired by bird feathers

May 13, 2015 12:24 pm | by Univ. of California, San Diego | News | Comments

Inspired by the way iridescent bird feathers play with light, scientists have created thin films of material in a wide range of pure colors with hues determined by physical structure rather than pigments. Structural color arises from the interaction of light with materials that have patterns on a minute scale, which bend and reflect light to amplify some wavelengths and dampen others.

Water was plentiful in early universe

May 13, 2015 12:17 pm | by American Friends of Tel Aviv Univ. | News | Comments

Astronomers have held that water was a relative latecomer to the universe. They believed any element heavier than helium had to have been formed in the cores of stars and not by the Big Bang itself. Since the earliest stars would have taken some time to form, mature and die, it was presumed that it took billions of years for oxygen atoms to disperse throughout the universe and attach to hydrogen to produce the first interstellar "water".

Nano-policing pollution

May 13, 2015 11:27 am | by Kaoru Natori, OIST | News | Comments

Pollutants emitted by factories and car exhausts affect humans who breathe in these harmful gases and also aggravate climate change up in the atmosphere. Being able to detect such emissions is a critically needed measure. New research has developed an efficient way to improve methods for detecting polluting emissions using a sensor at the nanoscale.

Artificial photosynthesis: New, stable photocathode with potential

May 13, 2015 9:14 am | by Helmholtz-Zentrum Berlin | News | Comments

Many of us are familiar with electrolytic splitting of water from their school days: If you hold two electrodes into an aqueous electrolyte and apply a sufficient voltage, gas bubbles of hydrogen and oxygen are formed. If this voltage is generated by sunlight in a solar cell, then you could store solar energy by generating hydrogen gas. This is because hydrogen is a versatile medium of storing and using "chemical energy".

Health benefits of used coffee grounds

May 13, 2015 8:57 am | by American Chemical Society | News | Comments

Coffee has gone from dietary foe to friend in recent years, partly due to the revelation that it’s rich in antioxidants. Now even spent coffee-grounds are gaining attention for being chock-full of these compounds, which have potential health benefits. In the Journal of Agricultural and Food Chemistry, researchers explain how to extract antioxidants from the grounds. They then determined just how concentrated the antioxidants are.

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