Tag Archives: Galaxy

The Helix Nebula: Bigger in Death than Life

By Guest PostOctober 6, 2012Scienceaquarius, carbon, constellation, dwarf star, dying star, evolution, explorer, fuel source, fusion reaction, Galaxy, galex, helium, helix nebula, hydrogen, infrared, light year, NASA, nebula, ngc 7293, nitrogen, nuclear, oxygen, planetary nebulae, Space, space telescope, spitzer, stellar core, ultraviolet, ultraviolet radiation, wise

A dying star is refusing to go quietly into the night, as seen in this combined infrared and ultraviolet view from NASA’s Spitzer Space Telescope and the Galaxy Evolution Explorer (GALEX), which NASA has lent to the California Institute of Technology in Pasadena. In death, the star’s dusty outer layers are unraveling into space, glowing from the intense ultraviolet radiation being pumped out by the hot stellar core.

This object, called the Helix nebula, lies 650 light-years away in the constellation of Aquarius. Also known by the catalog number NGC 7293, it is a typical example of a class of objects called planetary nebulae. Discovered in the 18th century, these cosmic works of art were erroneously named for their resemblance to gas-giant planets. (more…)

First Stars, Galaxies Formed more Rapidly than Expected

By Guest PostSeptember 9, 2012Scienceanalysis, anisotropy probe, Antarctica, astronomer, background, Berkeley, california, christian reichardt, cmb, cosmic microwave, cosmological evolution, data, earth axis, electron, Epoch, Galaxy, geographic, herschel satellite, high resolution, hydrogen atom, image, john carlstrom, kavli foundation, microwave, millimeter wavelength, national, neutral, neutral gas, oliver zahn, period, plasma, polar plateau, proton, radiation, reionization, s chandrasekhar, science foundation, south pole, star, telescope, ultraviolet light, universe, university, wilkinson

Analysis of data from the National Science Foundation’s South Pole Telescope, for the first time, more precisely defines the period of cosmological evolution when the first stars and galaxies formed and gradually illuminated the universe. The data indicate that this period, called the epoch of reionization, was shorter than theorists speculated — and that it ended early.

“We find that the epoch of reionization lasted less than 500 million years and began when the universe was at least 250 million years old,” said Oliver Zahn, a postdoctoral fellow at the Berkeley Center for Cosmological Physics at the University of California, Berkeley, who led the study. “Before this measurement, scientists believed that reionization lasted 750 million years or longer, and had no evidence as to when reionization began.” (more…)

Astronomers Test Einstein in a New Regime Using Pair of Burnt-Out Stars

By Guest PostAugust 31, 2012Sciencealbert einstein, apache point telescope, astronomer, austin, burnt out stars, canary islands, carlos allende prieto, don winget, dwarf stars, einstein, emission, energy, european space agency, fabric, Galaxy, gemini north telescope, general relativity, gran telescopio canarias, gravitational wave, hawaii, j j hermes, j0651, mcdonald observatory, milliseconds, moving object, mukremin kilic, NASA, new mexico, new regime, orbital decay, orbital period, otto struve telescope, ripple, space time, spain, sun, test, texas, theory, university, university of oklahoma, warren brown, west texas

AUSTIN, Texas — A team of astronomers led by researchers from The University of Texas at Austin has confirmed the emission of gravitational waves from the second-strongest known source in our galaxy by studying the shrinking orbital period of a unique pair of burnt-out stars. Their observations tested Albert Einstein’s theory of general relativity in a new regime. The results will be published soon in The Astrophysical Journal Letters.

Last year, the same team discovered that the two white dwarf stars are so close together that they make a complete orbit in less than 13 minutes, and they should be gradually slipping closer. The system, called SDSS J065133.338+284423.37 (J0651 for short), contains two white dwarf stars, which are the remnant cores of stars like our sun. (more…)

Today in the Milky Way: Cloudy Skies

By Guest PostJune 30, 2012Scienceadam block, aquila dark cloud, aquila rift arcs, astronomy picture, cloudy skies, dust lanes, Galaxy, gas and dust, herbig haro object, hh32, infrared, ldn 673, light years, Milky Way, mount lemmon skycenter, radiation, radio wave, rno 109, schulmann telescope, stellar winds, summer triangle, university of arizona

Adam Block of the UA’s Mount Lemmon SkyCenter brings us a rare view of the clouds wafting through our Milky Way in this Astronomy Picture of the Day.

In silhouette against the Milky Way’s faint starlight, its dusty molecular clouds likely contain raw material to form hundreds of thousands of stars, prompting astronomers to eagerly search the clouds for telltale signs of star birth.

This telescopic close-up looks toward the region at a fragmented Aquila dark cloud complex identified as LDN 673, stretching across a field of view slightly wider than the full moon.

For this image selected by NASA as the June 29 Astronomy Picture of the Day, astrophotographer Adam Block of the University of Arizona’s Mount Lemmon SkyCenter remotely operated the 32-inch Schulmann Telescope to peer into the vast chasms of gas and dust wafting through the Milky Way, exposing for about 15 minutes at a time during several nights in April and May. (more…)

Black Hole Caught Red-Handed in a Stellar Homicide

By Guest PostMay 2, 2012Sciencearmin rest, astronomer, Baltimore, billion light years, black hole, chandra, demise, Galaxy, galaxy evolution explorer, haleakala, hawaii, helium gas, johns hopkins university, milky way galaxy, NASA, pan starrs1 telescope, supermassive, suvi gezari

PASADENA, Calif. – Astronomers have gathered the most direct evidence yet of a supermassive black hole shredding a star that wandered too close. NASA’s Galaxy Evolution Explorer, a space-based observatory, and the Pan-STARRS1 telescope on the summit of Haleakala in Hawaii were among the first to help identify the stellar remains.

Supermassive black holes, weighing millions to billions times more than the sun, lurk in the centers of most galaxies. These hefty monsters lie quietly until an unsuspecting victim, such as a star, wanders close enough to get ripped apart by their powerful gravitational clutches. (more…)

NASA’s Spitzer Finds Galaxy with Split Personality

By Guest PostApril 27, 2012Sciencearchetypal galaxy, centaurus, Chile, constellation virgo, dimitri gadotti, earth, elliptical galaxy, ellipticals, Galaxy, galaxy evolution, globular cluster, NASA, ngc 4594, ruben sanchez janssen, sean carey, sombrero galaxy, spiral disk, spiral milky way, spitzer space telescope, split personality

PASADENA, Calif. — While some galaxies are rotund and others are slender disks like our spiral Milky Way, new observations from NASA’s Spitzer Space Telescope show that the Sombrero galaxy is both. The galaxy, which is a round elliptical galaxy with a thin disk embedded inside, is one of the first known to exhibit characteristics of the two different types. The findings will lead to a better understanding of galaxy evolution, a topic still poorly understood.

“The Sombrero is more complex than previously thought,” said Dimitri Gadotti of the European Southern Observatory in Chile and lead author of a new paper on the findings appearing in the Monthly Notices of the Royal Astronomical Society. “The only way to understand all we know about this galaxy is to think of it as two galaxies, one inside the other.” (more…)

Clocking an Accelerating Universe: First Results from BOSS

By Guest PostApril 4, 2012Scienceaccelerate, adam riess, apache point observatory, bao, baryon acoustic oscillation, berkeley lab, beth reid, big bang, brian schmidt, cmb, cosmic microwave background, dan long, dark energy, david schlegel, density peak, einstein, eric huff, euclidean universe, Galaxy, george smoot, gravitational attraction, gravity, high z supernova, hubble, martin white, megaparsecs, Milky Way, new mexico, nobel prize, phenomenon, redshifts, saul perlmutter, scp, sdss, sloan telescope, spectrograph, statistical analysis, universe, zosia rostomian

Berkeley Lab scientists are the leaders of BOSS, the Baryon Oscillation Spectroscopic Survey. They and their colleagues in the third Sloan Digital Sky Survey have announced the most precise measurements ever made of the era when dark energy turned on.

Some six billion light years distant, almost halfway from now back to the big bang, the universe was undergoing an elemental change. Held back until then by the mutual gravitational attraction of all the matter it contained, the universe had been expanding ever more slowly. Then, as matter spread out and its density decreased, dark energy took over and expansion began to accelerate.

Today BOSS, the Baryon Oscillation Spectroscopic Survey, the largest component of the third Sloan Digital Sky Survey (SDSS-III), announced the most accurate measurement yet of the distance scale of the universe during the era when dark energy turned on. (more…)

First Habitable-Zone super-Earth Discovered in Orbit Around a Sun-like Star

By Guest PostMarch 12, 2012Sciencealan boss, ames research center, constellation, cygnus, discovery, doppler technique, exoplanet, g5 star, Galaxy, gas giant planets, habitable zone, kepler mission, lyra, NASA, photometric data, radial velocity, space telescope, star, sun, super earth, william borucki

Washington, D.C. — NASA’s Kepler Mission has discovered the first super-Earth orbiting in the habitable zone of a star similar to the Sun. A team of researchers, including Carnegie’s Alan Boss, has discovered what could be a large, rocky planet with a surface temperature of about 72 degrees Fahrenheit, comparable to a comfortable spring day on Earth. This landmark finding will be published in The Astrophysical Journal.

The discovery team, led by William Borucki of the NASA Ames Research Center, used photometric data from the NASA Kepler space telescope, which monitors the brightness of 155,000 stars. Earth-size planets whose orbital planes are aligned such that they periodically pass in front of their stars result in tiny dimmings of their host star’s light–dimmings that can only be measured by a highly specialized space telescope like Kepler. (more…)