Supermassive black holes spend half their lives veiled in dust

March 26, 2010 By Leave a Comment

Washington, March 26 (ANI): A new study by astronomers at Yale University and the University of Hawaii has determined that after undergoing huge growth spurts as a result of galactic collisions, supermassive black holes spend half their lives veiled in dust.

As massive, gas-rich galaxies in the distant universe collide, the central black hole feeds on gas that is funneled to the center of the merger.

“As a result of the violent, messy collision, the black hole also remains obscured behind a ”veil” of dust for between 10 million and 100 million years,” said Priyamvada Natarajan, professor of astronomy at Yale and one of the study paper’s authors.

After that time, the dust is blown away to reveal a brightly shining quasar—the central region of a galaxy with an extremely energetic, supermassive black hole at its center—that lasts for another 100 million years, the team found.

Until now, astronomers were unsure how long the quasars spent behind the dust cloud.

While unobscured quasars, which are the brightest optical objects in the early universe, were discovered in the late 1950s, examples of quasars obscured by dust were more difficult to detect, and were only discovered in the late 1990s.

“For many years, astronomers believed that these sources were very rare. Now we are seeing them everywhere,” said Ezequiel Treister of the University of Hawaii, lead author of the study.

The team used observations from the Hubble, Chandra and Spitzer space telescopes to identify a large number of obscured, dust-enshrouded quasars up to 11 billion light years away, when the universe was only about one-fifth its current age.

“We detected a signature of very hot dust at infrared and X-ray wavelengths to find these obscured sources,” Treister said.

“Once they had been identified, we used Hubble’s new Wide Field Camera 3—which astronauts installed last year during the final servicing mission—to confirm that these distant quasars were actually the result of mergers,” said Kevin Schawinski, another Yale co-author.

The astronomers coupled the telescope observations with estimated galaxy merger rates and theoretical models to come up with the amount of time it takes for the black hole to blow away the surrounding dust and gas and reveal the naked, bright quasar.

“We found that these growing black holes spend about half their lives veiled in dust, and half their lives unveiled,” Natarajan said.

“That means that, until now, we have likely been missing half of the actively growing black holes in the early universe,” she added. (ANI)

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Dark energy may not actually exist

August 18, 2009 By Leave a Comment

London, August 18 (ANI): A new research by scientists has claimed that dark energy – the mysterious substance thought to make up three-quarters of the universe – may not actually exist.

The concept of dark energy was created by cosmologists to fit Albert Einstein’s General Theory of Relativity into reality after modern space telescopes discovered that the Universe was not behaving as it should.

According to Einstein’s work, the speed at which the Universe is expanding following the Big Bang should be slower than it actually is and this unexplained anomaly threatened to turn the whole theory upside down.

In order to reconcile this problem, the concept of dark energy was invented.

But now, according to a report in the Telegraph, Blake Temple and Joel Smoller, mathematicians at the University of California and the University of Michigan, believe they have come up with a whole new set of calculations that allow for all the sums to add up without the need for this controversial substance.

The research could change the way astronomers view the composition of our Universe, as it may prove that dark energy doesn’t exist at all.

The Standard Model of Cosmology, which describes the evolution of the Universe, begins with the Big Bang.

Astronomers have recently observed that the galaxies are accelerating as they move away from each other, and cosmologists have sought to explain this unexpected acceleration by introducing the concept of dark energy, which permeates space, propels matter, and accounts for nearly 75 percent of the mass-energy in our Universe.

The new research is likely to be equally controversial as the work it purports to challenge especially as it relies on our galaxy being at the centre of the Universe – a concept that has been generally disregarded in modern science.

According to Dr Malcom Fairbairn, particle cosmologist at King’s College London, “Ever since the concept of dark energy was first mentioned, people have been trying to explain it or explain it away. It is a mystery and an inconvenience.”

“This is one attempt at it. Whether it is right only time will tell,” he said. (ANI)

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Space telescopes may soon start detecting air-breathing aliens in exoplanets

May 18, 2009 By Leave a Comment

London, May 18 (ANI): The day is not far when it would be possible to see signs of life on planets far away from our own solar system-thanks to space telescopes that could soon be able to detect “biosignatures” in the light from planets orbiting other stars.

Talking at an astrobiology meeting, scientists revealed that it could be possible to get clues of life on such exoplanets via tiny fraction of the parent star’s light that interacts with the planet on its journey towards Earth.

Already, the Hubble and Spitzer space telescopes have detected gases such as carbon dioxide and water vapour in the atmospheres of a handful of gas-giant exoplanets while they pass in front of their parent stars.

But these instruments are not sensitive enough to detect evidence of life – so-called biosignatures – in the spectrum of rocky Earth-like planets.

One of the most important biosignature is oxygen and it was announced that NASA’s infrared James Webb Space Telescope (JWST) could distinguish signs of oxygen present in the atmospheres of Earth-like planets around the nearest stars.

Another promising device is NASA’s proposed Terrestrial Planet Finder, which could launch in the 2020s and would be powerful enough to spot oxygen-rich planets in systems much farther from Earth (even when they are not passing in front of their parent stars) by seeing light reflected from the planet’s surface.

However, oxygen alone does not prove that life is present, especially on a planet close to its parent star.

Another possible biosignature might be found in the light reflected off living matter like cyanobacteria, reports New Scientist magazine.

The red and blue light reflected from an alien world could be used to create maps of its oceans, which could at least indicate the planet is habitable.

In an experiment led by Nicholas Cowan of the University of Washington in Seattle, researchers made maps by using the measurements by NASA’s Deep Impact spacecraft, which showed Earth’s apparent colour varying over time.

When more water is on the side facing the probe, the planet appears bluer, while a large landmass looks redder-which helped the researchers to construct a crude map of how land and water are distributed on our planet.

The researchers said that a telescope like NASA’s proposed Terrestrial Planet Finder could do the same for Earth-like exoplanets.

The findings were presented at a symposium on the search for life beyond Earth held last week in Baltimore, Maryland. (ANI)

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ALMA telescope passes major milestone with successful antenna link

May 7, 2009 By Leave a Comment

Washington, May 7 (ANI): The Atacama Large Millimeter/submillimeter Array (ALMA), an immense international telescope project under construction in northern Chile, reached a major milestone when two ALMA antennas were linked together as an integrated system to observe an astronomical object for the first time.

The milestone achievement, technically termed “First Fringes,” came at ALMA’s Operations Support Facility (OSF), 9,500 feet above sea level, on April 30.

Faint radio waves emitted by the planet Mars were collected by the two 12-meter diameter ALMA antennas, then processed by state-of-the-art electronics to turn the two antennas into a single, high-resolution telescope system, called an interferometer.

Such pairs of antennas are the basic building blocks of imaging systems that enable radio telescopes to deliver pictures that approach or even exceed the resolving power of visible light telescopes.

In such a system, each antenna is combined electronically with every other antenna to form a multitude of antenna pairs.

Each pair contributes unique information that is used to build a highly-detailed image of the astronomical object under observation.

When completed in early in the next decade, ALMA’s 66 antennas will provide over a thousand such antenna pairings, with distances between antennas exceeding ten miles.

This will enable ALMA to see with a sharpness surpassing that of the best space telescopes.

The antennas will operate at an altitude of 16,500 feet, high above the OSF, in one of the best locations on Earth for millimeter-wavelength astronomy, the Chajnantor Plateau in Chile’s Atacama Desert.

ALMA will provide astronomers with the world’s most advanced tool for exploring the Universe at millimeter and submillimeter wavelengths.

It will detect fainter objects and be able to produce much higher-quality images at these wavelengths than any previous telescope system.

Scientists are eager to use this transformational capability to study stars and galaxies that formed in the early Universe, to learn long-sought details about how stars are born, and to trace the motion of gas and dust as it whirls toward the surface of newly-formed stars and planets.

According to Thijs de Graauw, ALMA Director at the JAO, “This is another important step forward for ALMA as it proves that the various hardware components can work well together.” (ANI)

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British space mission to uncover ‘secrets of universe’

May 3, 2009 By Leave a Comment

London, May 2 (ANI): A British space mission, which would include two deep space telescopes, dubbed Herschel and Planck, will probe the ancient history of the cosmos going right back to the dawn of time at the Big Bang – and possibly before.

According to a report in the Telegraph, the European Space Agency probes would be fired into space on an Arianne 5 rocket on May 14.

Astronomers hope the satellites will answer some of the biggest questions in science, such as how the universe came into being, why it looks the way it does and how stars and galaxies are born.

“This is going to change our view of the universe and where we have all come from,” Mission chief Professor David Southwood said. “We are talking about the origin of galaxies and stars and even life itself,” he added.

The 7.5m Herschel probe, named after the astronomer William Herschel the discoverer of Uranus, will be the largest telescope ever put into space, built around a huge 3.5m diameter mirror.

Its high-tech sensors, which detect far-infrared radiation, are designed to peer through dust clouds to observe the mysterious process of how stars and galaxies are created.

Meanwhile Planck, named after the father of quantum mechanics, will study the minute fluctuations in the background ‘echo’ left over from the Big Bang – called Cosmic Microwave Background – to map the universe in the finest detail ever.

According to scientists, the results, which should give clues to the structure of the infant universe 14 billion years ago, could radically change human understanding of the most fundamental principles of physics.

“Planck is going to allow us to travel right back to the very beginning of time,” said Professor Richard Holdaway, of funding body the Science and Technology Facilities Council.

“We know there must have been structure there at the time of the Big Bang, and possibly before the Big Bang, ” said Cambridge University physicist Professor George Efstathiou, leading member of the Planck team. “That’s what we hope this will tell us,” he added.

The results could also offer insights into the much vaunted string theory, which involves a complex 11-dimensional universe, with seven ‘hidden’ dimensions on top of the four observable dimensions of space and time.

“We might find signatures of pre-Big Bang physics. We might find evidence of cosmic defects – superstrings in the sky,” said Efstathiou.

“Unravelling the physical information may tell us something about the warped geometry of the hidden dimensions,” he added. (ANI)

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NASA’s online game lets you peer through the James Webb Space Telescope

May 2, 2009 By Leave a Comment

Washington, April 29 (ANI): NASA has developed a flash on-line game about telescopes, featuring its next-generation spacecraft, the James Webb Space Telescope.

The game, called “Scope it Out!” includes an introduction to telescopes and four matching games where you can compare simple telescopes to both Webb and the Hubble Space Telescope.

It was created at NASA Goddard by Maggie Masetti, with Dr. Anita Krishnamurthi providing oversight on the project.

Programmer Kent deVillafranca and artist Susan Lin, both of Science Systems and Applications, Greenbelt, Maryland, did the programming and graphics for this project.

“This is a great way to teach children and adults on how simple and complex space telescopes work,” said Krishnamurthi, the Education and Public Outreach Lead for Webb at NASA’s Goddard Space Flight Center.

The level of the game is for middle school students and above.

There are five levels of gaming in the “Scope it Out!” game from Level Zero to Level Four.

Most levels present an image of a young woman looking through a telescope, side-by-side with a space telescope.

Level Zero gives a basic lesson in telescope optics through animated graphics.

Level One is where the matching game starts, by asking the player to find the seven components in the simple telescope that match with those in the Webb telescope.

The game culminates in Level Four where players have to find the components of the Hubble Telescope that match up with the James Webb Space Telescope.

This game requires FLASH 8 or higher, and there are two versions.

One version is for large monitors (1024×768) the other is for smaller (800×600) monitors. Once a monitor size is chosen, the game will pop up in a separate window.

For convenience, there’s also a small toggle button in the lower left corner of the game to allow a player to change the quality of the graphics.

The James Webb Space Telescope is a large, infrared space telescope, scheduled for launch in 2013.

JWST will find the first galaxies that formed in the early Universe, connecting the Big Bang to our own Milky Way Galaxy.

It will peer through dusty clouds to see stars forming planetary systems, connecting the Milky Way to our own Solar System. (ANI)

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