Milky Way’s fastest stars circle each other at 500 kms a second

March 13, 2010 By Leave a Comment

Washington, March 13 (ANI): Astronomers have confirmed that two extremely dense stars in an intimate dance are spinning around each other in just 5.4 minutes at about 500 kilometers a second, making them the fastest known stellar partners in the galaxy.

The whirling duo, known as HM Cancri, also has the tightest orbit of any known “binary” star system.

Both stars are white dwarfs—the dense, white-hot remnants left behind when sunlike stars die.

The stellar corpses are separated by no more than three times the width of Earth.

In such tight quarters, hot gases flow between the two stars, releasing huge amounts of energy.

“This is the most extreme example of one of these double white dwarf systems we have so far,” study co-author Danny Steeghs of the University of Warwick in the UK, told National Geographic News.

Study leader Gijs Roelofs, of the Harvard-Smithsonian Center for Astrophysics, was part of the team that first detected periodic x-ray emissions from HM Cancri in 1999.

Initial observations had suggested a 5.4-minute orbit, but the researchers weren’t sure if the pulses of light were coming from two circling stars or one superfast spinner.

To confirm the stars’ dizzying tango, Roelofs and colleagues turned to the world’s second largest optical telescope, at the W. M. Keck Observatory in Hawaii, where they measured “wobbles” in the system’s brightness.

“The amplitude of the wobble gives you an idea of the orbit period and the masses” of the stars, co-author Steeghs said.

What’s more, light emissions from the stars were found to be moving in opposite directions, as such emissions would for two orbiting bodies, cinching the case for a binary system.

HM Cancri’s record-breaking orbit couldn”t get much quicker, Steeghs added, since the stars would merge if they got any closer, triggering a massive explosion known as a type Ia supernova.

“Overall, three minutes would be the fastest a binary white dwarf system could get,” he said. (ANI)

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NASA’s Swift satellite makes best-ever ultraviolet portrait of Andromeda galaxy

September 17, 2009 By Leave a Comment

Washington, September 17 (ANI): NASA’s Swift satellite has acquired the highest-resolution view of a neighboring spiral galaxy ever attained in the ultraviolet.

The galaxy, known as M31 in the constellation Andromeda, is the largest and closest spiral galaxy to our own.

“Swift reveals about 20,000 ultraviolet sources in M31, especially hot, young stars and dense star clusters,” said Stefan Immler, a research scientist on the Swift team at NASA’s Goddard Space Flight Center in Greenbelt, Maryland.

“Of particular importance is that we have covered the galaxy in three ultraviolet filters. That will let us study M31′s star-formation processes in much greater detail than previously possible,” he added.

M31, also known as the Andromeda Galaxy, is more than 220,000 light-years across and lies 2.5 million light-years away.

On a clear, dark night, the galaxy is faintly visible as a misty patch to the naked eye.

Between May 25 and July 26, 2008, Swift’s Ultraviolet/Optical Telescope (UVOT) acquired 330 images of M31 at wavelengths of 192.8, 224.6, and 260 nanometers.

The images represent a total exposure time of 24 hours.

The task of assembling the resulting 85 gigabytes of images fell to Erin Grand, an undergraduate student at the University of Maryland at College Park who worked with Immler as an intern this summer.

“After ten weeks of processing that immense amount of data, I’m extremely proud of this new view of M31,” she said.

Several features are immediately apparent in the new mosaic.

The first is the striking difference between the galaxy’s central bulge and its spiral arms.

“The bulge is smoother and redder because it’s full of older and cooler stars,” Immler explained. “Very few new stars form here because most of the materials needed to make them have been depleted,” he added.

Dense clusters of hot, young, blue stars sparkle beyond the central bulge.

M31′s disk and spiral arms contain most of the gas and dust needed to produce new generations of stars.

Star clusters are especially plentiful in an enormous ring about 150,000 light-years across.

“Swift is surveying nearby galaxies like M31 so astronomers can better understand star- formation conditions and relate them to conditions in the distant galaxies where we see gamma-ray bursts occurring,” said Neil Gehrels, the mission’s principal investigator at NASA Goddard. (ANI)

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One of astronomy’s long held myths about star formation debunked

August 28, 2009 By Leave a Comment

Washington, August 28 (ANI): An international team of researchers has debunked one of astronomy’s long held beliefs about how stars are formed.

Since the 1950s, astronomers have thought that in a family of new-born stars, the ratio of massive stars to lighter ones was always pretty much the same.

“This was a really useful idea. Unfortunately it seems not to be true,” said team research leader Dr Gerhardt Meurer of Johns Hopkins University in Baltimore.

The different numbers of stars of different masses at birth is called the ‘initial mass function’ (IMF).

By measuring the amount of light from a population of stars, and making some corrections for the stars’ ages, astronomers can use the IMF to estimate the total mass of that population of stars.

Results for different galaxies can be compared only if the IMF is the same everywhere, but Dr Meurer’s team has shown that this ratio of high-mass to low-mass newborn stars differs between galaxies.

To arrive at this finding, Dr Meurer’s team used galaxies from the HIPASS Survey (HI Parkes All Sky Survey) done with CSIRO’s Parkes radio telescope.

The astronomers measured two tracers of star formation, ultraviolet and H-alpha emissions, in 103 galaxies using NASA’s GALEX satellite and the 1.5-m CTIO optical telescope in Chile.

“All of these galaxies were detected with the Parkes telescope because they contain substantial amounts of neutral hydrogen gas, the raw material for forming stars, and this emits radio waves,” said CSIRO’s Dr Baerbel Koribalski, a member of Dr Meurer’s team.

The astronomers measured two tracers of star formation, ultraviolet and H-alpha emissions, in 103 galaxies using NASA’s GALEX satellite and the 1.5-m CTIO optical telescope in Chile.

Meurer’s team found that the ratio of H-alpha to UV emission, varied from galaxy to galaxy, implying that the IMF also did, at least at its upper end.

Dr Meurer’s team suggests the IMF seems to be sensitive to the physical conditions of the star-forming region, particularly gas pressure.

For instance, massive stars are most likely to form in high-pressure environments such as tightly bound star clusters.

The team’s results allow a better understanding of other recently observed phenomena that have been puzzling astronomers, such as variation of the ratio of H-alpha to ultraviolet light as a function of radius within some galaxies.

This now makes sense as the stellar mix varying as the pressure drops with radius.

Importantly, the team also found that essentially all galaxies rich in neutral hydrogen seem to form stars.

“That means surveys for neutral hydrogen with radio telescopes will find star-forming galaxies of all kinds,” Dr Meurer said. (ANI)

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World’s largest and most technologically advanced telescope to debut on July 24

July 14, 2009 By Leave a Comment

Washington, July 14 (ANI): The world’s largest, most technologically advanced telescope is all set to make its formal debut on July 24 in Spain’s Canary Islands.

Known as the Gran Telescopio Canarias, the telescope has a 10.4-meter diameter mirror, and has more light-collecting area than any other telescope.

Perched 7,874 feet above sea level on a mountain on the island of La Palma, the GTC has 6 square meters more light collecting area than any of the roughly one dozen 8- to 10-meter telescopes worldwide.

With a mirror composed of 36 hexagonal segments thought to have the smoothest surfaces ever made, it is also the world’s most technologically advanced optical telescope.

Sensors keep the mirrors aligned to counteract the force of gravity, with the result that they act as a single surface, even as the telescope is rotated and aligned in place.

According to Stan Dermott, chairman of UF’s (University of Florida’s) astronomy department, the GTC’s size and technical attributes enable it not only to gather more light than any other telescope, but also resolve the light into sharper and clearer focus.

“For astronomers, those capabilities make it a powerful tool to study cosmic origins – the early days of the universe and the very early moments in the mysterious births of stars, planets and galaxies,” he said.

“The interpretation of the structure of the disks where new planets form is highly dependent on the quality of the image,” he said, adding that the GTC also will enable the discoveries of new planets, possibly including the first habitable planet.

At the inauguration of the telescope, officials and astronomers from the University of Florida, the only US institution that is part of the project, will join more than 500 astronomers, journalists and celebrities in a ceremony presided over by Spain’s King Juan Carlos I and Queen Sofia. (ANI)

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World’s biggest radio telescope looks deep into NASA detected bright galaxies

April 24, 2009 By Leave a Comment

Washington, April 23 (ANI): An international team of astronomers has used the world’s biggest radio telescope to look deep into the brightest galaxies that NASA’s Fermi Gamma-ray Space Telescope can see.

The study solidifies the link between an active galaxy’s gamma-ray emissions and its powerful radio-emitting jets.

“Now we know for sure that the fastest, most compact, and brightest jets we see with radio telescopes are the ones that are able to kick light up to the highest energies,” said Yuri Kovalev, a team member at the Max Planck Institute for Radio Astronomy in Bonn, Germany.

The brightest galaxies Fermi sees are active galaxies, which emit oppositely directed jets of particles traveling near the speed of light.

Some, called blazars, are especially bright because one of the jets happens to be directed toward us.

Astronomers believe that these jets somehow arise as a consequence of matter falling into a massive black hole at the galaxy’s center, but the process is not well understood.

To peer into the jets, Kovalev and his colleagues used the National Science Foundation’s Very Long Baseline Array (VLBA), a set of ten radio telescopes located from Hawaii to St. Croix in the U.S. Virgin Islands and operated by the National Radio Astronomy Observatory.

When the signals from these telescopes are combined, the array acts like a single enormous radio dish more than 5,300 miles across.

The VLBA can resolve details about a million times smaller than Fermi can and 50 times smaller than any optical telescope.

The new findings are an outcome of the MOJAVE program, a long-term study of the jets from active galaxies using the VLBA.

“We see the innermost few hundred light-years of these jets for even the most distant active galaxies seen by Fermi,” Kovalev noted.

Kovalev and his colleagues see a correlation between active galaxies with the brightest gamma-ray emission and those with the fastest jets.

The VLBA can study a phenomenon called “Doppler boosting”, which makes radio-emitting blobs look brighter and appear to move much faster that the speed of light.

The VLBA data show that the bigger the Doppler boost seen in a radio jet, the more likely it is that Fermi recorded it as a variable gamma-ray source.

In addition, many objects found by Fermi to be extreme in gamma-rays are broadcasting strong bursts of radio emission at about the same time.

All this points to the team’s conclusion that the portion of an active galaxy’s radio jet closest to the galaxy’s core is also the source of the gamma-rays Fermi detects. (ANI)

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World’s biggest telescope will search heavens for planets

April 5, 2009 By Leave a Comment

London, Apr 5 (ANI): Scientists are planning to build a giant telescope that will be powerful enough to identify habitable planets like Earth in distant solar systems.

Astronomers claim the European Extremely Large Telescope, which will house a mirror the width of five double decker buses placed end to end, will be the first optical telescope capable of picking out the weak pinpricks of light that are reflected from planets as they orbit stars.

The scientific breakthrough will be able to spot rocky Earth-like planets up to 100 million million miles away, reports The Telegraph.

Light’s telltale signatures coming from such planets could also reveal whether there is water on their surfaces, which gases are in their atmospheres, and even if they may harbour life itself.

The 1 billion euro E-ELT will have more mirror glass than all the other telescopes in the world put together.

It is expected to be so powerful that if astronomers were to use it to peer at the Moon, they would be able to see the car sized lunar rover that was left on the moon by astronauts during the Apollo missions.

Isobel Hook, joint chair of the E-ELT science working group and an astronomer at Oxford University, said: “The astronomy community has been moving towards building progressively bigger telescopes to get sharper images.

“The resolution of the ELT is going to allow us to see objects and structures in the universe that we have been blind to until know.” (ANI)

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NASA satellite records early stage of gamma-ray burst

March 4, 2009 By Leave a Comment

Washington, March 3 (ANI): A team of astronomers, using a telescope aboard the NASA Swift satellite, have captured information from the early stages of a gamma-ray burst, the most violent and luminous explosions occurring in the Universe since the Big Bang.

By using Swift’s Ultraviolet/Optical Telescope (UVOT), the astronomers were able to obtain an ultraviolet spectrum of a GRB just 251 seconds after its onset, the earliest ever captured.

The gamma-ray burst observed on this occasion originated in a galaxy 8 billion light years from Earth

Further use of the instrument in this way will allow them to calculate the distance and brightness of GRBs within a few hundred seconds of their initial outburst, and gather new information about the causes of bursts and the galaxies they originate from.

It is currently thought that some GRBs are caused by immense explosions following the collapse of the core of a rapidly rotating, high-mass star into a black hole, but there are still many mysteries surrounding them.

“The UVOT’s wavelength range, coupled with the fact that Swift is a space observatory with a speedy response rate, unconstrained by time of day or weather, has allowed us to collect this early ultraviolet spectrum,” said Martin Still from the Mullard Space Science Laboratory (MSSL) at University College London (UCL).

Paul Kuin, also from MSSL, who works on the calibration of the UVOT instrument, explained that, “By looking at these earlier moments of gamma-ray bursts, we will not only be able to better calculate things such as the luminosity and distance of a burst, but to find out more about the galaxies that play host to them and the impact these explosions have on their environments.”

“Once this new technique is applied to much brighter bursts, we’ll have a wealth of new data,” he added.

According to Massimiliano De Pasquale, a GRB scientist of the UVOT team from MSSL, “The UVOT instrument is particularly suited to study bursts with an average to high redshift – a part of the ultraviolet spectrum that is difficult for even the very big ground-based telescopes to study.”

“Using UVOT with Swift, we can now find redshifts for bursts that were difficult to capture in the past and find out more about their distant host galaxies, about ten billion light years away,” he added.

“The new spectrum has not only allowed us to determine the distance of the gamma-ray burst’s host galaxy but has revealed the density of its hydrogen clouds. Learning more about these far-away galaxies helps us to understand how they formed during the early universe,” said Kuin. (ANI)

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Treat your eyes to a ‘green’ comet on February 24!

February 22, 2009 By Leave a Comment

London, Feb 21 (ANI): Avid skygazers are all set to get a cosmic treat in the form of a ‘green’ comet, which is fast approaching Earth, and would be visible to the naked eye on February 24.

Comet Lulin will streak by the earth within 38 million miles – 160 times farther than the moon -and is expected to be visible to the naked eye.

Discovered only a year ago, the comet gains its green colour from poisonous cyanogen and diatomic carbon gases in its atmosphere.

This will be the comet’s first visit to the Earth’s inner solar system – and will enable the team from the University of Leicester to gain valuable insights into the comet.

Scientists are using NASA’s Swift satellite to monitor Comet Lulin as it closes on Earth. The spacecraft has recorded simultaneous ultraviolet and X-ray images of a comet.

“Swift is the ideal spacecraft with which to observe this comet,” said Jenny Carter, a scientist working with Dr Andrew Read at the University of Leicester, UK.

“We alerted the Swift team that the comet might be visible, and they quickly responded to take images using both the X-ray (XRT) and Ultraviolet/Optical Telescopes (UVOT) on-board,” said Dr Read.

According to Dr Julian Osborne, leader of the Swift project at Leicester, “The wonderful ease of scheduling of Swift and its joint UV and X-ray capability make Swift the observatory of choice for observations like these.”

“It is important to carry out these observations as they give us clues about the origin of comets and the solar system,” Carter added.

Comet Lulin, which is formally known as C/2007 N3, was discovered last year by astronomers at Taiwan’s Lulin Observatory.

On January 28, Swift trained its Ultraviolet/Optical Telescope and X-Ray Telescope on Comet Lulin.

“The comet is quite active,” said team member Dennis Bodewits, a NASA Postdoctoral Fellow at the Goddard Space Flight Center in Greenbelt, Maryland, USA.

“The UVOT data show that Lulin was shedding nearly 800 gallons of water each second,” he added.

“We are looking forward to future observations of Comet Lulin, when we hope to get better X-ray data to help us determine its makeup,” said Carter.

“They will allow us to build up a more complete 3-D picture of the comet during its flight through the solar system,” he added. (ANI)

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