Earth under attack from death star

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www.thesun.co.uk/sol/homepage/news/2889372/Earth-under-attack-from-Death-Star.html

AN invisible star may be circling the Sun and causing deadly comets to bombard the Earth, scientists said yesterday.
The brown dwarf - up to five times the size of Jupiter - could be to blame for mass extinctions that occur here every 26 million years.

The star - nicknamed Nemesis by Nasa scientists - would be invisible as it only emits infrared light and is incredibly distant.

Nemesis is believed to orbit our solar system at 25,000 times the distance of the Earth to the Sun.

As it spins through the galaxy, its gravitational pull drags icy bodies out of the Oort Cloud - a vast sphere of rock and dust twice as far away as Nemesis.

These "snowballs" are thrown towards Earth as comets, causing devastation similar to the asteroid that wiped out the dinosaurs 65 million years ago.

Now Nasa boffins believe they will be able to find Nemesis using a new heat-seeking telescope that began scanning the skies in January.

The Wide-Field Infrared Survey Explorer - expected to find a thousand brown dwarfs within 25 light years of the Sun - has already sent back a photo of a comet possibly dislodged from the Oort Cloud.

Scientists' first clue to the existence of Nemesis was the bizarre orbit of a dwarf planet called Sedna.

Boffins believe its unusual, 12,000-year-long oval orbit could be explained by a massive celestial body.

Mike Brown, who discovered Sedna in 2003, said: "Sedna is a very odd object - it shouldn't be there.

"The only way to get on an eccentric orbit is to have some giant body kick you - so what is out there?"

Professor John Matese, of the University of Louisiana at Lafayette, said most comets come from the same part of the Oort Cloud.

He added: "There is statistically significant evidence that this concentration of comets could be caused by a companion to the Sun."

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Search on for Death Star that throws out deadly comets


This diagram shows a brown dwarf in relation to Earth, Jupiter, a low-mass star and the sun. Photo: NASA

www.telegraph.co.uk/science/space/7429335/Search-on-for-Death-Star-that-throws-out-deadly-comets.html

Nasa scientists are searching for an invisible 'Death Star' that circles the Sun, which catapults potentially catastrophic comets at the Earth.

The star, also known as Nemesis, is five times the size of Jupiter and could be to blame for the impact that wiped out the dinosaurs 65 million years ago.

The bombardment of icy missiles is being blamed by some scientists for mass extinctions of life that they say happen every 26 million years.

Nemesis is predicted to lie at a distance equal to 25,000 times that of the Earth from the Sun, or a third of a light-year.

Astronomers believe it is of a type called a red or brown dwarf – a "failed star" that has not managed to generate enough energy to burn like the Sun.

But it should be detectable by a heat-sensitive space telescope called WISE, the Wide-Field Infrared Survey Explorer.

Launched last year, WISE began surveying the skies in January. It is expected to discover a 1000 brown dwarfs within 25 light-years of the Sun – right on our cosmic doorstep – before its coolant runs out in October.

The nearest normal star to us is around 4.5 light-year away.

Our solar system is thought to be surrounded by a vast sphere of icy bodies, twice as far away as Nemesis, called the Oort Cloud.

Some get kicked in towards the planets as comets – giant snowballs of ice, dust and rock – and the suggestion is that the Death Star's gravitational influence is to blame.

The paleontologists David Raup and Jack Sepkoski discovered that, over the last 250 million years, life on Earth has been devastated on a 26-million-year cycle. Comet impacts are suggested as a likely cause for these catastrophes.

A similar impact by an asteroid wiped out the dinosaurs 65 million years ago, a major inquest by scientists concluded last week, though that is not being blamed on Nemesis.

Most stars have one or more companion stars orbiting around each other, which would make the sun's single status unusual.

A major clue to Nemesis's existence is a mysterious dwarf planet called Sedna that was spotted on an elongated 12,000-year-long orbit around the sun.

Mike Brown, who discovered Sedna in 2003, said: "Sedna is a very odd object – it shouldn't be there! It never comes anywhere close to any of the giant planets or the sun. It's way, way out there on this incredibly eccentric orbit.

The only way to get on an eccentric orbit is to have some giant body kick you – so what is out there?"

Professor John Matese, of the University of Louisiana at Lafayette, says most comets in the inner solar system seem to come from the same region of the Oort Cloud – launched by the pull of a companion star to the sun that scatters comets in its wake.

He suggests it is up to five times the size of Jupiter or 7,000 times the size of Earth.

He said: "There is statistically significant evidence that this concentration of comets could be caused by a companion to the Sun."

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Getting WISE About Nemesis

www.astrobio.net/exclusive/3427/getting-wise-about-nemesis

A dark object may be lurking near our solar system, occasionally kicking comets in our direction.

Nicknamed “Nemesis” or “The Death Star,” this undetected object could be a red or brown dwarf star, or an even darker presence several times the mass of Jupiter.

Why do scientists think something could be hidden beyond the edge of our solar system? Originally, Nemesis was suggested as a way to explain a cycle of mass extinctions on Earth.

The paleontologists David Raup and Jack Sepkoski claim that, over the last 250 million years, life on Earth has faced extinction in a 26-million-year cycle. Astronomers proposed comet impacts as a possible cause for these catastrophes.

Our solar system is surrounded by a vast collection of icy bodies called the Oort Cloud. If our Sun were part of a binary system in which two gravitationally-bound stars orbit a common center of mass, this interaction could disturb the Oort Cloud on a periodic basis, sending comets whizzing towards us.

An asteroid impact is famously responsible for the extinction of the dinosaurs 65 million years ago, but large comet impacts may be equally deadly. A comet may have been the cause of the Tunguska event in Russia in 1908. That explosion had about a thousand times the power of the atomic bomb dropped on Hiroshima, and it flattened an estimated 80 million trees over an 830 square mile area.

While there’s little doubt about the destructive power of cosmic impacts, there is no evidence that comets have periodically caused mass extinctions on our planet. The theory of periodic extinctions itself is still debated, with many insisting that more proof is needed. Even if the scientific consensus is that extinction events don’t occur in a predictable cycle, there are now other reasons to suspect a dark companion to the Sun.

The Footprint of Nemesis


The smaller object in these two photos is a brown dwarf that orbits the star Gliese 229. Located in the constellation Lepus and about 19 light years from Earth, the brown dwarf Gliese 229B is about 20 to 50 times the mass of Jupiter. Image credit: NASA

John Matese, Emeritus Professor of Physics at the University of Louisiana at Lafayette, suspects Nemesis exists for another reason. The comets in the inner solar system seem to mostly come from the same region of the Oort Cloud, and Matese thinks the gravitational influence of a solar companion is disrupting that part of the cloud, scattering comets in its wake. His calculations suggest Nemesis is between 3 to 5 times the mass of Jupiter, rather than the 13 Jupiter masses or greater that some scientists think is a necessary quality of a brown dwarf. Even at this smaller mass, however, many astronomers would still classify it as a low mass star rather than a planet, since the circumstances of birth for stars and planets differ.


The “New Object” labeled in this image is Sedna, a dwarf planet with a 12,000-year orbit around the Sun. It’s a mystery why Sedna has such an elongated orbit

The Oort Cloud is thought to extend about 1 light year from the Sun. Matese estimates Nemesis is 25,000 AU away (or about one-third of a light year). The next-closest known star to the Sun is Proxima Centauri, located 4.2 light years away.

Richard Muller of the University of California Berkeley first suggested the Nemesis theory, and even wrote a popular science book on the topic. He thinks Nemesis is a red dwarf star 1.5 light years away. Many scientists counter that such a wide orbit is inherently unstable and could not have lasted long – certainly not long enough to have caused the extinctions seen in Earth’s fossil record. But Muller says this instability has resulted in an orbit that has changed greatly over billions of years, and in the next billion years Nemesis will be thrown free of the solar system.

Binary star systems are common in the galaxy. It is estimated that one-third of the stars in the Milky Way are either binary or part of a multiple-star system.

Red dwarfs are also common – in fact, astronomers say they are the most common type of star in the galaxy. Brown dwarfs are also thought to be common, but there are only a few hundred known at this time because they are so difficult to see. Red and brown dwarfs are smaller and cooler than our Sun, and do not shine brightly. If red dwarfs can be compared to the red embers of a dying fire, then brown dwarfs would be the smoldering ash. Because they are so dim, it is plausible that the Sun could have a secret companion even though we’ve searched the sky for many years with a variety of instruments.

NASA’s newest telescope, the Wide-field Infrared Survey Explorer (WISE), may be able to answer the question about Nemesis once and for all.

Finding Dwarfs in the Dark


Illustration of the “Oort Cloud,” a vast region of comets thought to extend a light year beyond our Sun.
Image credit: NASA/JPL/Donald K. Yeoman

WISE looks at our universe in the infrared part of the spectrum. Like the Spitzer space telescope, WISE is hunting for heat. The difference is that WISE has a much wider field of view, and so is able to scan a greater portion of the sky for distant objects.

WISE began scanning the sky on January 14, and NASA recently released the mission’s first images. The mission will map the entire sky until October, when the spacecraft’s coolant runs out.

Part of the WISE mission is to search for brown dwarfs, and NASA expects it could find one thousand of the dim stellar objects within 25 light years of our solar system.

Davy Kirkpatrick at NASA’s Infrared Processing and Analysis Center at Caltech found nothing when he searched for Nemesis using data from the Two Micron All Sky Survey (2MASS). Now Kirkpatrick is part of the WISE science team, ready to search again for any signs of a companion to our Sun.

Kirkpatrick doesn’t think Nemesis will be the red dwarf star with an enormous orbit described by Muller. In his view, Matese’s description of Nemesis as a low mass object closer to home is more plausible.

“I think the possibility that the Sun could harbor a companion of another sort is not a crazy idea,” said Kirkpatrick. “There might be a distant object in a more stable, more circular orbit that has gone unnoticed so far.”

Ned Wright, professor of astronomy and physics at UCLA and the principal investigator for the WISE mission, said that WISE will easily see an object with a mass a few times that of Jupiter and located 25,000 AU away, as suggested by Matese.


Astronomers think there could be as many brown dwarfs as stars like our Sun, but brown dwarfs are often too cool to find using visible light. Using infrared light, the WISE mission could find many brown dwarfs within 25 light years of the Sun. These two pictures show simulated data before and after the WISE mission (stars are not real). The simulated picture on the left shows known stars (white and yellow) and brown dwarfs (red) in our solar neighborhood. The picture on the right shows additional brown dwarfs WISE is expected to find.
Image credit: NASA/JPL-Caltech

“This is because Jupiter is self-luminous like a brown dwarf,” said Wright. “But for planets less massive than Jupiter in the far outer solar system, WISE will be less sensitive.”


Comet “Siding Spring” appears to streak across the sky like a superhero in this new infrared image from NASA's Wide-field Infrared Survey Explorer, or WISE. WISE will be looking for comets and asteroids that might pose a threat to Earth.
Image credit: NASA/JPL-Caltech/UCLA

Neither Kirkpatrick nor Wright think Nemesis is disrupting the Oort cloud and sending comets towards Earth, however. Because they envision a more benign orbit, they prefer the name "Tyche" (the good sister).

Regardless of what they expect to find, the WISE search won’t focus on one particular region of the sky.

“The great thing about WISE, as was also true of 2MASS, is that it's an all-sky survey,” said Kirkpatrick. “There will be some regions such as the Galactic Plane where the observations are less sensitive or fields more crowded, but we'll search those areas too. So we're not preferentially targeting certain directions.”

We may not have an answer to the Nemesis question until mid-2013. WISE needs to scan the sky twice in order to generate the time-lapsed images astronomers use to detect objects in the outer solar system. The change in location of an object between the time of the first scan and the second tells astronomers about the object’s location and orbit. Then comes the long task of analyzing the data.

“I don't suspect we'll have completed the search for candidate objects until mid-2012, and then we may need up to a year of time to complete telescopic follow-up of those objects,” said Kirkpatrick.

Even if Nemesis is not found, the WISE telescope will help shed light on the darkest corners of the solar system. The telescope can be used to search for dwarf planets like Pluto that orbit the Sun off the solar system’s ecliptic plane. The objects that make up the Oort Cloud are too small and far away for WISE to see, but it will be able to track potentially dangerous comets and asteroids closer to home.