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Solar tsunami used to measure Sun’s magnetic field

By Guest PostJuly 20, 2013Scienceatmosphere, cmes, coronal mass ejections, david long, earth, eis, explosion, extreme, japanese hinode spacecraft, magnetic field, measure, NASA, satellite, sdo, solar activity, solar dynamics observatory, solar storms, solar tsunami, sun, technological infrastructure, ultraviolet, ultraviolet imaging spectrometer, xray

A solar tsunami observed by NASA’s Solar Dynamics Observatory (SDO) and the Japanese Hinode spacecraft has been used to provide the first accurate estimates of the Sun’s magnetic field.

Solar tsunamis are produced by enormous explosions in the Sun’s atmosphere called coronal mass ejections (CMEs). As the CME travels out into space, the tsunami travels across the Sun at speeds of up to 1000 kilometres per second.

Similar to tsunamis on Earth, the shape of solar tsunamis is changed by the environment through which they move. Just as sound travels faster in water than in air, solar tsunamis have a higher speed in regions of stronger magnetic field. This unique feature allowed the team, led by researchers from UCL’s Mullard Space Science Laboratory, to measure the Sun’s magnetic field. The results are outlined in a paper soon to be published in the journal Solar Physics. (more…)

NASA’s Voyager 1 Explores Final Frontier of Our ‘Solar Bubble’

By Guest PostJune 29, 2013Sciencecharged particles, cosmic ray, depletion region, ed stone, energetic particle data, final frontier, heliosphere, interstellar arrival, interstellar space, johns hopkins university, jupiter, leonard burlaga, magnetic field, magnetosphere, Milky Way, NASA, solar bubble, solar originating particles, stamatios krimigis, twin spacecraft, voyager 1, voyager project scientist

PASADENA, Calif. — Data from Voyager 1, now more than 11 billion miles (18 billion kilometers) from the sun, suggest the spacecraft is closer to becoming the first human-made object to reach interstellar space.

Research using Voyager 1 data and published in the journal Science today provides new detail on the last region the spacecraft will cross before it leaves the heliosphere, or the bubble around our sun, and enters interstellar space. Three papers describe how Voyager 1’s entry into a region called the magnetic highway resulted in simultaneous observations of the highest rate so far of charged particles from outside heliosphere and the disappearance of charged particles from inside the heliosphere. (more…)

Rocket powered by nuclear fusion could send humans to Mars

By Guest PostApril 27, 2013Science3d computer simulation, aeronautics, anthony pancotti, astronautics, christopher pihl, david kirtley, expedition to mars, fusion reactions, fusion state, george votroubek, high voltage battery, humans to mars, hydrogen bomb, john slough, lithium metal rings, magnetic field, michael pfaff, microsecond, msnw, NASA, nuclear fusion, plasma, plasma dynamics laboratory, powered by, redmond, researcher, rocket, rocket fuel, space programs, university of washington, uw

Human travel to Mars has long been the unachievable dangling carrot for space programs. Now, astronauts could be a step closer to our nearest planetary neighbor through a unique manipulation of nuclear fusion, the same energy that powers the sun and stars.

University of Washington researchers and scientists at a Redmond-based space-propulsion company are building components of a fusion-powered rocket aimed to clear many of the hurdles that block deep space travel, including long times in transit, exorbitant costs and health risks. (more…)

Out of This World

By Guest PostSeptember 18, 2012Sciencebuilding block, colloids, computer chip, crystalline structure, delaware, eric m furst, functional material, gravity, international space station, iss, james swan, lattice, magnetic field, microscopic particle, Nanotechnology, NASA, novel nanomaterial, paramagnetic colloid, paula vasquez, phase separation, pnas, reality, scalable, self assemble, university

UD professor reports smart fluids research in scientific journal

Imagine a computer chip that can assemble itself.

According to Eric M. Furst, professor of chemical and biomolecular engineering at the University of Delaware, engineers and scientists are closer to making this and other scalable forms of nanotechnology a reality as a result of new milestones in using nanoparticles as building blocks in functional materials.

Furst and his postdoctoral researchers, James Swan and Paula Vasquez, along with colleagues at NASA, the European Space Agency, Zin Technologies and Lehigh University, reported the finding Sept. 17 in an article in the Proceedings of the National Academies of Science (PNAS) online edition. (more…)

Dinosaur Die Out Might Have Been Second of Two Closely Timed Extinctions

By Guest PostSeptember 6, 2012Scienceaerosols, ammonite, antarctic peninsula, antarctic sediment, Argentina, asteroid, asteroid impact, carbon dioxide, deccan plateau, dinosaurs, earth, eduardo olivero, environmental effect, eric steig, fossil, free swimming, greenhouse gas, hell creek formation, history, India, isaac hilburn, james ross island, joseph kirschvink, magnetic field, magnetostratigraphy, mass extinction, matthew diamond, Mexico, montana, ocean floor, particles, peter ward, planet, ross mitchell, second event, sediment deposit, seymour island, species, thomas tobin, timothy raub, university, volcanic eruption, Washington, yale university, yucatan peninsula

The most-studied mass extinction in Earth history happened 65 million years ago and is widely thought to have wiped out the dinosaurs. New University of Washington research indicates that a separate extinction came shortly before that, triggered by volcanic eruptions that warmed the planet and killed life on the ocean floor.

The well-known second event is believed to have been triggered by an asteroid at least 6 miles in diameter slamming into Mexico’s Yucatán Peninsula. But new evidence shows that by the time of the asteroid impact, life on the seafloor – mostly species of clams and snails – was already perishing because of the effects of huge volcanic eruptions on the Deccan Plateau in what is now India. (more…)

For UA Astronomy Students, the Sky is Not the Limit

By Guest PostApril 17, 2012Education, Science61 inch telescope, allison mcgraw, allison towner, astrobiologist, astronomer, astronomy camp, astronomy class, atlantic ocean, brianna smart, carter thaxton smith, don mccarthy, earth bound telescope, element, exoplanet, jake turner, john bieging, jupiters, kevin hardegree ullman, kuiper telescope, kuiper telescope dome, life, lindsay small, liquid water, magnetic field, mandy walker lafollette, marco rocchetto, mount lemmon, optical telescope, planet, university of arizona

UA astronomy students Kevin Hardegree-Ullman and Jake Turner designed, proposed, conducted and presented research on two recently discovered planets outside of our solar system while they were still undergraduates.

Deep in the cosmos, alien planets are circling distant stars, waiting to be pierced by the far-reaching gaze of Earth-bound telescopes. Some are Earth-like and have the potential to harbor liquid water and maybe even life. Others are enormous, gassy giants. All of them are different than any planet we know.

They are the exoplanets, planets outside of our solar system, which astronomers are only just beginning to discover and analyze.

Kevin Hardegree-Ullman and Jake Turner, then University of Arizona undergraduate astronomy students, decided to get to know two of them a little better. (more…)

Pigeons’ Homing Skill Not Down to Iron-Rich Beak Cells

By Guest PostApril 16, 2012Natureballs of iron, beaks, david keays, electrical signal, Environment, imaging technique, infection, iron, macrophages, magnetic cell, magnetic field, magnetic nerve cell, mark lythgoe, mechanism, migratory bird, navigation, nerve cell, pigeon, red blood cell, state-of-the-art, theory, university college london, vienna, white blood cell

The theory that pigeons’ famous skill at navigation is down to iron-rich nerve cells in their beaks has been disproved by a new study published in Nature.

The study shows that iron-rich cells in the pigeon beak are in fact specialised white blood cells, called macrophages. This finding, which shatters the established dogma, puts the field back on course as the search for magnetic cells continues. (more…)

Space Weather Forecast: Sunspotty, With an Increasing Chance of Solar Storms

By Guest PostApril 15, 2012Environmentatmosphere, coronal mass ejections, dark sky, earth, flagpole, fm broadcasts, forecast, frank lind, gps, john sahr, k p index, kuow, laura vertatschitsch, magnetic field, magnetosphere, mars, mary levin, mechanical energy, molecular plasma, northern light, satellites, seattle, sieg hall, solar flares, solar storms, source, space weather, sunspot cycle, sunspotty, transmitter, xray

The past few months have seen a spate of solar flares – bringing spectacular views of the northern lights as far south as Seattle – along with media speculation that the electrical activity could disrupt power grids, satellites or ground airplanes.

John Sahr, a UW professor of electrical engineering who studies the upper atmosphere, is the regional go-to guy for such questions. We found some time in Sahr’s busy schedule (he’s also the UW’s associate dean of undergraduate academic affairs and a part-time zombie hunter) to get his read on the space weather forecast. (more…)

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