Tag Archives: dust

Searching for the Solar System’s Chemical Recipe

By Guest PostMarch 4, 2013Scienceasteroids, basic ingredients, beams of vuv, carbon monoxide, clouds, comets, dust, elements, gas molecules, gas phase photodynamics, genesis mission, hydrogen sulfide, interplanetary ice, isotope ratios, isotopic differences, john heidenreich, mark thiemens, mass spectrometry, mean ocean water, moons, musahid musa ahmed, nanometer wavelength range, NASA, nitrogen, one extra neutron, origin, oxygen 17, oxygen isotope puzzle, photochemistry, physical factors, planets, primitive solar nebula, raindrops, san diego, smow, solar system recipe, standard, subrata chakraborty, teresa jackson, ultraclean aluminum foil, university of california, vacuum ultraviolet light, vuv wavelengths, x axis, y axis

Berkeley Lab’s Chemical Dynamics Beamline points to why isotope ratios in interplanetary dust and meteorites differ from Earth’s

By studying the origins of different isotope ratios among the elements that make up today’s smorgasbord of planets, moons, comets, asteroids, and interplanetary ice and dust, Mark Thiemens and his colleagues hope to learn how our solar system evolved. Thiemens, Dean of the Division of Physical Sciences at the University of California, San Diego, has worked on this problem for over three decades.

In recent years his team has found the Chemical Dynamics Beamline of the Advanced Light Source (ALS) at the U.S. Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) to be an invaluable tool for examining how photochemistry determines the basic ingredients in the solar system recipe. (more…)

Plumes across the Pacific Deliver Thousands of Microbial Species to West Coast

By Guest PostDecember 20, 2012Environmentaerobiology, aerosol, air pollution, aircraft, asia, atmospheric particle, bacterial, balloons, biomass, cascade mountains, central oregon, dale griffin, daniel jaffe, david j smith, dilution, DNA, dust, dust plume, earth, ecosystem, fungal, global wind circulation, harmless, hilkka timonen, kevin perry, michael roberts, michele birmele, microorganism, molecular method, mount bachelor, NASA, North America, old classification, pacific ocean, peter ward, plume event, pollutant, traditional paradigm, trans pacific trip, troposphere, university of utah, university of washington, west coast

A surprising number of microorganisms – more than 100 times more kinds than reported just four months ago – are leaping the biggest gap on the planet. Hitching rides in the upper troposphere, they’re making their way from Asia across the Pacific Ocean and landing in North America.

For the first time researchers have been able to gather enough biomass in the form of DNA to apply molecular methods to samples from two large dust plumes originating in Asia in the spring of 2011. The scientists detected more than 2,100 unique species compared to only 18 found in the very same plumes using traditional methods of culturing, results they published in July. (more…)

Hungry Black Hole

By Guest PostOctober 28, 2012Sciencea star, asteroid, astronomers, astronomical observatory, australia, billion year, black hole, celestial fireworks, center, chow down, comet, dark gray, delaware, double star, dust, dust cloud, emission, explosion, g2, galactic, Galaxy, gas, gravitational pull, harry shipman, hungry, infrared, keck observatory, light year, mark morris, microwave, Milky Way, mount cuba, optics, sagittarius a, slumbering giant, so 16, spatial fluctuation, telescope, turbulent atmosphere, university, x ray, xray data, YouTube

Astronomers poised for galactic chow-down

The super-massive black hole at the center of the Milky Way Galaxy has a healthy appetite, frequently snacking on asteroids and comets. Now, a cloud of gas and dust called G2 is on a dangerous course to become its next meal.

Even though Sagittarius A* (pronounced “Sagittarius A-star”) hasn’t been easy to see through the cosmic dust, sitting 25,000 light years away at galaxy central, scientists know it is a black hole — and a hungry one at that. Its weight has been estimated to be more than that of 4 million suns. (more…)

Astronomers Discover Houdini-Like Vanishing Act in Space

By Guest PostJuly 9, 2012Scienceastronomer, astronomical scale, baffling discovery, benjamin zuckerman, carl melis, Chile, constellation centaurus, dust, dust particles, dusty disc, game changer, gemini observatory, gemini telescope, infrared astronomical satellite, iras, joseph rhee, joy pollard, jupiter, lynette cook, mars, mega flare, mercury, NASA, neptune, norm murray, rocky debris, rocky planet, saturn rings, solar system, tyc 8241 2652, ucla, wise satellite

Astronomers report a baffling discovery never seen before: An extraordinary amount of dust around a nearby star has mysteriously disappeared.

“It’s like the classic magician’s trick — now you see it, now you don’t,” said Carl Melis, a postdoctoral scholar at UC San Diego and lead author of the research. “Only in this case, we’re talking about enough dust to fill an inner solar system, and it really is gone!”

“It’s as if the rings around Saturn had disappeared,” said co-author Benjamin Zuckerman, a UCLA professor of physics and astronomy. “This is even more shocking because the dusty disc of rocky debris was bigger and much more massive than Saturn’s rings. The disc around this star, if it were in our solar system, would have extended from the sun halfway out to Earth, near the orbit of Mercury.” (more…)

Star Explosion Leaves Behind a Rose

By Guest PostDecember 11, 2011Scienceancient supernova, bright star, cosmic cannonball, dense object, dust, earth, explosion, gas clouds, massive star, modern astronomers, NASA, neutron star, puppis a, red rose, shock waves, Space, supernova, universe, vela supernova, wide field infrared survey explorer, wise

About 3,700 years ago, people on Earth would have seen a brand-new bright star in the sky. It slowly dimmed out of sight and was eventually forgotten, until modern astronomers later found its remains, called Puppis A. In this new image from NASA’s Wide-field Infrared Survey Explorer (WISE), Puppis A looks less like the remains of a supernova explosion and more like a red rose.

Puppis A (pronounced PUP-pis) was formed when a massive star ended its life in a supernova, the most brilliant and powerful form of an explosion in the known universe. The expanding shock waves from that explosion are heating up the dust and gas clouds surrounding the supernova, causing them to glow and appear red in this infrared view. While much of the material from that original star was violently thrown out into space, some of it remained in an incredibly dense object called a neutron star. This particular neutron star (too faint to be seen in this image) is moving inexplicably fast: over 3 million miles per hour! Astronomers are perplexed over its absurd speed, and have nicknamed the object the “Cosmic Cannonball.” (more…)

Rising Air Pollution Worsens Drought, Flooding UMD-Led Study Shows

By Guest PostNovember 14, 2011Environmentaerosols, air pollution, air pollution and climate change, beijing normal university, climate change, climate scientist, cloud development, cloud drops, daniel rosenfeld, dust, economic gains, global satellite products, greenhouse gases and aerosol particles, hazardous to both human health and the environment, ice crystals, impact of aerosols on cloud height and thickness, intensity of severe storms, management and use of water resources, NASA, oklahoma, particulate matter in the atmosphere, polluted deep clouds, precipitation in dry regions or seasons, probability of heavy rain, rain, russell dickerson, small particles, snowfall, soot, stephen e schwartz, steve ghan, sulfate particles, tiny solid particles or liquid particles suspended in air, tony busalacchi, university of maryland, urbanization, us southern great plains, weather and climate, zhanqing li

COLLEGE PARK, Md. – Increases in air pollution and other particulate matter in the atmosphere can strongly affect cloud development in ways that reduce precipitation in dry regions or seasons, while increasing rain, snowfall and the intensity of severe storms in wet regions or seasons, says a new study by a University of Maryland-led team of researchers.

The research provides the first clear evidence of how aerosols — soot, dust and other small particles in the atmosphere — can affect weather and climate; and the findings have important implications for the availability, management and use of water resources in regions across the United States and around the world, say the researchers and other scientists. (more…)

Broken Glass Yields Clues to Climate Change

By Guest PostDecember 31, 2010Environmentatmosphere, brittle objects, carbon dioxide, clay particles, climate, climate models, clouds, drinking glass, dust, dust particles, future climate, human hair, jasper kok, marine ecosystems, microscopic particles, northern africa, precipitation, sarah ruth, solar energy, Space, temperature, to model, united states, weather forecasting

*Ordinary drinking glasses and atmospheric dust particles break apart in similar patterns*

Clues to future climate may be found in the way an ordinary drinking glass shatters.

Results of a study published this week in the journal Proceedings of the National Academy of Sciences find that microscopic particles of dust can break apart in patterns that are similar to the fragment patterns of broken glass and other brittle objects. (more…)

WISE Sees an Explosion of Infrared Light

By Guest PostDecember 12, 20101 commentSciencecastor, constellation, dust, emitting light, eta geminorum, exploded star, gas, gas atoms, gemini, halo, ic 443 nebula, infrared light, infrared wavelengths, jet propulsion laboratory, massive stars, NASA, rainbow, shock waves, supernovae, wide field infrared survey explorer, wise, wise image

A circular rainbow appears like a halo around an exploded star in this new view of the IC 443 nebula from NASA’s Wide-field Infrared Survey Explorer, or WISE.

When massive stars die, they explode in tremendous blasts, called supernovae, which send out shock waves. The shock waves sweep up and heat surrounding gas and dust, creating supernova remnants like the one pictured here. The supernova in IC 443 happened somewhere between 5,000 and 10,000 years ago. (more…)