News Picks

Physics Today’s online staff summarize the most important and interesting news about science from the world's top media outlets.

There are 68 posts for the selected month (April 2015).
April 24, 2015 4:24 PM

Wearable electronic skin allows for thought-controlled devices

New Scientist: An electroencephalogram (EEG) is a common device for measuring brain activity. The technology has also been used to allow a wearer to remotely control a variety of devices. However, the electrodes and wires of a normal EEG make it unwieldy in any but the most controlled conditions. Now, John Rogers of the University of Illinois at Urbana-Champaign and his colleagues have built an EEG into a thin wearable skin that adheres to the body via the van der Waals force and stays in place for up to two weeks. The small patch is worn just behind the ear, and test subjects used it to spell words on a screen in front of them. During the testing, the EEG was still connected to the screen by wires. Rogers's team is working to incorporate wireless connectivity into the device. The researchers' primary goal is to use the device for remote monitoring of medical conditions such as seizures, but they think it could also be used to control a variety of simple devices.

April 24, 2015 1:52 PM

New algorithm improves 3D imaging of complex biomolecules

MIT Technology Review: Determining the three-dimensional structure of large proteins and other biomolecules has proven difficult. X-ray crystallography works well for molecules that form crystals, but many proteins do not. Now, Marcus Brubaker of the University of Toronto and his colleagues have developed an algorithm that improves a different, previously less effective, imaging technique called electron cryomicroscopy. The technique involves freezing molecules in a thin film and imaging them with transmission electron microscopy. A 3D composite of multiple 2D images of the same molecule can then be constructed. However, the process is time-consuming due to the amount of noise in the images and uncertainty concerning the molecules' orientations when they were imaged. Thanks to two algorithmic innovations, Brubaker's team was able to reduce the imaging time from 2 weeks to just 24 hours. The key improvements were using a machine learning process to sift through the noise in the images to glean the useful information and incorporating importance sampling. The latter relies on the fact that molecules in thin films are usually positioned on their sides, so the algorithm can skip evaluating potential head-on structural orientations.

April 24, 2015 1:40 PM

Electrode implants reveal tinnitus’s manifestation in the brain

BBC: Tinnitus, the hearing of phantom sounds, may affect a larger area of the human brain than previously thought. The condition is often caused by noise-induced hearing loss or neurological damage. Until now, it was thought that only the hearing pathway was affected. Recently Phillip Gander of the University of Iowa and colleagues were able to gather much more extensive data on the condition by studying a man who had had electrodes planted on his brain to monitor his epilepsy. Through the use of those electrodes, the researchers were able to compare his brain activity when his tinnitus was loud with when it was quiet. They found that brain wave oscillations associated with tinnitus extended far beyond the sections of the brain involved with just hearing. The results are based on only one subject, but the researchers hope to be able to expand their study by gaining access to other patients undergoing similar electrode monitoring.
April 24, 2015 12:20 PM

Radio telescope probes the relationship between cosmic rays and lightning

Nature: The connection between cosmic rays and thunderstorms is one of many phenomena being investigated by researchers using the Low-Frequency Array (LOFAR), a network of radio antennas and particle detectors spread across five European countries. When cosmic rays hit Earth’s atmosphere, they collide with air molecules and create a shower of electrically charged particles that fall toward the ground. The particles emit radio waves, which can be detected by LOFAR. The researchers noticed that the radio waves fall in orderly patterns with their polarizations neatly aligned when the weather is fair, but they get scrambled when passing near thunderclouds, which consist of layers of positively and negatively charged particles. Although lightning strikes have long been known to provide a form of electrostatic discharge between electrically charged layers in a cloud or between clouds and the ground, what triggers a lightning strike has remained a mystery. Now the LOFAR researchers propose that it may be those cosmic rays raining in from distant space that push the clouds’ electric fields past the tipping point.
April 23, 2015 2:44 PM

Canadian budget proposal emphasizes industry connections

Nature: Prime Minister Stephen Harper's Conservative government released its budget proposal on 21 April. With modest increases in scientific spending in some areas, the budget continues the Conservative Party's push for more applied research and connections between government, universities, and industry. The budget includes Can$1.33 billion (US$1.09 billion) for new university and hospital research facilities. The money is to be spread out over 6 years beginning in 2017. Many of the increased areas of funding have language specifically related to business and industry. The budget also includes Can$243 million to support Canada's involvement over the next 10 years in the international Thirty Meter Telescope project in Hawaii.

April 23, 2015 2:40 PM

Blocking a certain protein may help prevent blindness

New Scientist: Age-related macular degeneration, which can eventually lead to blindness, is caused by the abnormal growth of blood vessels in the retina. The weakened vessels can then leak blood, resulting in a hemorrhage. To better understand the processes involved, researchers led by Alain Chédotal of the Institute of Vision in Paris studied the effect of a certain protein, Slit2, on angiogenesis. In experiments conducted on mice, the researchers found that suppressing production of that protein severely reduced the growth of retinal blood vessels. Thus controlling Slit2 might also "block the chaotic development of blood vessels in ocular diseases," according to Chédotal.
April 23, 2015 2:29 PM

Young crust in subduction zone under Cascades produces unusual magma

Ars Technica: Subduction zones occur where oceanic crust is forced down under continental crust. As the subducted material is pushed toward the mantle, it melts into magma. The amount of water present in the different layers of the rock affects how quickly pockets of magma form. Rock that formed more recently is still warm, which means that it doesn't have to descend as far down into the mantle to start heating up and become dehydrated. Kristina Walowski of the University of Oregon and her colleagues, who have collected minerals from volcanos in the southern region of the Cascades, have confirmed that the subducted plate there is quite young. However, a simulation based on the isotopes in the minerals suggests that the water escaped the rock well before it reached the depth at which magma forms. That led Walowski's team to adjust the model to incorporate water trapped at the bottom layer of the crust. That reservoir of water leads to the formation of magma, and the ratios of other elements in the minerals in the Cascades support the idea that a young oceanic plate is being turned into magma there.

April 23, 2015 1:20 PM

Diving bird runs on water to attract a mate

Science: Few vertebrates have the ability to defy gravity by running across the surface of water. One species that has managed the feat is the grebe, a type of freshwater diving bird that lives in western North America. For both the western and Clark’s grebes, “rushing” for brief periods of up to seven seconds is used as a courting display. But until recently, researchers did not know exactly how grebes, which can weigh up to about 2 kg, manage to skim across the water. In May 2012 Glenna Clifton of Harvard University and her colleagues spent a month in the field, where they managed to capture high-speed video of the novel display. From that footage, the researchers have determined that the grebes are able to slap their feet rapidly against the water’s surface, as many as 20 times per second. However, the force generated is just half that needed to keep them up. To determine how they generate the rest of the force may require filming under the water.
April 22, 2015 12:40 PM

Radio waves detected from individual electrons

Science: Charged particles traveling through magnetic fields are deflected from their linear paths and instead follow curved trajectories. In doing so, they release radiation. For the first time, researchers have detected the radio waves of a single electron trapped in a spiral in a strong magnetic field. To achieve this, a team of scientists at the University of Washington in Seattle trapped krypton-83 gas produced by the decay of rubidium-83. When trapped, each krypton atom ejected a single electron with a known energy. The electrons were piped into a waveguide cell in the presence of a superconducting magnet. The waveguide was designed to detect electromagnetic radiation between 25 GHz and 27 GHz and transmit the radiation to amplifiers. That allowed the researchers to track the change in frequency of the emissions of individual electrons as they lost energy and spiraled inward. The technique provides researchers with a new method for measuring the energy of electrons in a nondestructive manner. It may also be useful for calculating the mass of neutrinos by using electrons emitted from tritium atoms via beta decay.
April 22, 2015 12:15 PM

Hubble spots mysterious exploding star

Nature: A mysterious stellar outburst has been captured by NASA’s Hubble Space Telescope. Images taken in January and August 2014 reveal what appears to be an exploding star in the constellation Eridanus. The explosion's brightness was 100 times greater than that of an ordinary nova yet 10 times fainter than that of a supernova. One possible explanation is that the outburst was a kilonova, which occurs when two neutron stars collide. However, none of the high-energy radiation that is typically emitted by such events was observed. Another possibility is that the explosion represents an entirely new class of celestial objects. If so, it is hoped that future telescopes with much wider fields of view, such as the Large Synoptic Survey Telescope and the Wide-Field Infrared Survey Telescope, may find more of them.
April 22, 2015 11:55 AM

New atomic clock sensitive to altitude change of just 2 cm

Los Angeles Times: The connection between time and gravity was made 100 years ago by Albert Einstein. As ever more precise clocks have been developed, researchers have been able to demonstrate the effects of time dilation by comparing the speed of clocks located at different altitudes—in satellites separated by miles, in an airplane and on the ground, on top of a mountain and at sea level, and even just one foot apart. Now, Jun Ye of JILA and his colleagues have developed an atomic clock sensitive enough to show the effect of gravity when the clock is moved just 2 cm up or down. The new clock, which is a version of an optical lattice, uses a laser to measure the movement of an electron in orbit around a strontium nucleus. To improve on previous optical lattice clocks, Ye's team used highly sensitive thermometers and one of the most stable lasers available. They also were able to reduce the disruptive effects of the laser on the electron. The result is a clock three times more sensitive than the previous best clock and several orders of magnitude more sensitive than the world's official time-keeping atomic clock.
April 22, 2015 10:25 AM

Japanese maglev train sets another world speed record

BBC: In a recent test, Japan’s magnetic levitation, or maglev, train attained a record speed of 603 km/h. The test lasted 10.8 seconds, during which the train traveled 1.8 km along an experimental track. It broke its own record from last week of 590 km/h. Maglev trains use electromagnets to provide both levitation above and propulsion along a special guideway. Japan plans for the trains to begin commercial service in 2027. The first line would connect Tokyo and Nagoya, a distance of about 280 km. The maglev trains will cut the travel time in half of that attained by Japan’s Shinkansen, a high-speed train that has been providing service for the past half century. During a visit to the US later this month, Japanese prime minister Shinzo Abe is expected to promote building a maglev system between New York and Washington, DC.
April 21, 2015 2:20 PM

Cold spot in cosmic microwave background was caused by "supervoid"

Wired: Several of the maps of the cosmic microwave background (CMB) radiation have revealed a spot that is unusually large and cold. Its size and coldness have posed a challenge to theories of the universe's early history. Now Istvan Szapudi of the University of Hawaii and his colleagues believe they have an explanation that fits with other cosmological theories. Using the Pan-STARRS1 telescope and NASA's Wide-Field Infrared Survey Explorer, Szapudi's team found a vast region of space with a much lower density of galaxies than average, about 1.8 billion light-years wide and located just 3 billion light-years from Earth. They propose that as the CMB radiation passed through that "supervoid," it may have lost considerable energy, which explains why there is a cold spot.
April 21, 2015 12:40 PM

Most accurate simulations of colliding black holes yet

Nature: Modeling collisions of black holes is extremely complex. Most simulations simplify various parts of the systems, including the application of general relativity. Now Stuart Shapiro of the University of Illinois at Urbana-Champaign and his colleagues have developed a model that fully incorporates general relativity, allowing for the most in-depth three-dimensional rendering of black hole collisions yet. Shapiro's team was able to couple Einstein's equations with the equations that represent the motion of matter moving at a large fraction of the speed of light in a magnetic field. The new simulations are well-timed because recent observations suggest that the two black holes assumed to be present in the system PSO J334.2028+01.4075 are likely to merge in the next seven years.
April 21, 2015 12:20 PM

European Parliament opposes plan to divert funds from Horizon 2020

Science: At the end of last year, European Commission president Jean-Claude Juncker proposed diverting €2.7 billion from Horizon 2020—the European Union’s €70 billion, seven-year research funding program—and using it for a new investment fund to boost Europe’s economy. Although supported by the EU member states, the plan sparked opposition from various research organizations. In February a group of Nobel laureates addressed a letter to Juncker, asking him to reverse what they called a “misguided and short sighted policy.” Now the European Parliament has also voiced its opposition to the plan. Negotiations among the three principals—the commission, parliament, and member states—are set to begin on 23 April.
April 21, 2015 11:10 AM

Ocean acidification may be shrinking shellfish, says study

New Scientist: Not only are the oceans growing more acidic due to increasing levels of atmospheric carbon dioxide, but marine life is being forced to adapt or risk extinction. Richard Twitchett of London’s Natural History Museum and colleagues studied two species of sea snail living in the Mediterranean near volcanic seeps, where injections of CO2 make the water more acidic. They found that the snails living there are about two-thirds the size of those living in water with normal pH. Although the researchers were surprised to find that the smaller snails consumed twice as much oxygen per milligram of tissue as larger snails, their total oxygen consumption was half that of larger snails. That adaptation makes them better able to survive in more acidic environments. The researchers say the dwarfing of marine species due to global warming could have serious consequences for humans who depend on them for food.
April 20, 2015 1:34 PM

German politicians agree to €5 billion extension of science funding

Nature: A deal between Germany's ruling political parties would provide €5 billion ($5.4 billion) to extend the nation's Excellence Initiative until 2028. Currently set to expire in 2017, the initiative provides funding to the nation's top-performing universities and early-career researchers. Since 2006, the initiative has created 20 000 new science jobs. The details of the funding have not been finalized, but are expected to be released in January after a review of the performance of the initiative so far.

April 20, 2015 1:28 PM

New fermentation method increases hydrogen production

MIT Technology Review: Normal fermentation processes rely on microorganisms, which produce enzymes that convert sugars into usable products, among them hydrogen gas for fuel cells. Now, Percival Zhang of Virginia Tech and his colleagues have developed a hydrogen creation technique that uses enzymes alone. In the group's experiments, the technique produced three times as much hydrogen as did conventional fermentation. Their demonstration used just a 2-ml reactor vessel, but the process appears to be nearly as fast and energy efficient as current, microorganism-based ones. To scale their process up for commercialization, the researchers must find a way to reduce the cost of the enzymes used.

April 20, 2015 1:05 PM

Quantum computing device sees exponential increase in speed

New Scientist: Another advance has been made in the development of a quantum computer. Fabio Sciarrino of the Sapienza University of Rome and colleagues have been working on a quantum machine that implements an approach known as boson sampling. Their machine is based on a 19th-century counting device called the Galton box, which demonstrates statistical distributions, or bell curves. Invented by Francis Galton, the box consists of a vertical board with rows of pins through which balls are dropped and collect at the bottom in bins. The quantum version uses photons that travel along a network of intersecting channels in an optical chip, collide, and change direction. Sciarrino and coworkers have now increased the speed of their device, previously demonstrated in 2012, by increasing the number of photon sources from one to six. Although the improvement is promising, researchers say there’s still a long way to go before quantum computers surpass classical ones.
April 20, 2015 11:00 AM

Biological clock depends more on light’s color than its brightness

Science: Biologists have long known that the internal clocks of animals, including humans, adjust according to the available light. What role the different properties of light, such as color and brightness, play in governing a body’s circadian rhythms, however, has not been clear. Tim Brown of the University of Manchester in the UK and colleagues now say that the color of light may be more important than its intensity. They studied an area in the brains of mice called the suprachiasmatic nucleus (SCN). From the electrical signals emitted by the SCN, the researchers were able to watch how the mice reacted to an artificial sky in which the ambient light intensity was varied to mimic night and day, with and without color changes in the light. They found that when natural color changes were removed, the mice’s internal clocks became confused. The researchers suggest that one reason color vision evolved was so animals could continue to reset their internal clocks even when clouds reduced the brightness, but not the color, of light.
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