Friday, October 11, 2013

சூரியன் இல்லாத புதிய கோள் கண்டுபிடிப்பு!


பூமியில் இருந்து 80 ஒளி ஆண்டுகள் தொலைவில், சூரியன் போன்ற நட்சத்திரம் எதுமின்றி தன்னந்தனியே சுற்றி வரும் இளைய கோள் ஒன்று கண்டறியப்பட்டுள்ளது.


அமெரிக்காவின் சர்வதேச விண்வெளி ஆராய்ச்சி குழுவினர் நடத்திய ஆய்வில் இந்த இளைய கோள் கண்டுபிடிக்கப்பட்டுள்ளது. 


இது, வியாழன் கோளை விட ஆறு மடங்கு பெரிதாக உள்ளது. சுமார் 1 கோடியே 20 லட்சம் ஆண்டுகளுக்கு முன் தோன்றிய இந்தக் கோளுக்கு "பிஎஸ்ஓ ஜே318.5-22' என்று பெயரிடப்பட்டுள்ளது. 


இதுவரையில் சூரியன் இல்லாமல் தனியாகச் சுற்றும் கோள் கண்டுபிடிக்கப்படவில்லை என ஆராய்ச்சியாளர்கள் தெரிவித்துள்ளனர்.





Astronomers say they've spotted lonesome planet without a sun


Eighty light-years from Earth, there's a world that's just six times more massive than Jupiter, floating all alone without a sun to keep it warm, astronomers reported Wednesday.


Such free-floaters have been reported before, but in the past, it hasn't always been clear whether these were orphaned planets or failed stars. This time, the scientists say they're sure it's a planet.
"We have never before seen an object free-floating in space that that looks like this," team leader Michael Liu of the Institute for Astronomy at the University of Hawaii at Manoa said in a news release.


 "It has all the characteristics of young planets found around other stars, but it is drifting out there all alone. I had often wondered if such solitary objects exist, and now we know they do."

The heat signature of the world, known as PSO J318.5-22, was identified by the Pan-STARRS 1 wide-field survey telescope on Haleakala, on the Hawaiian island of Maui. The light coming from the object is about 100 billion times fainter in optical wavelengths than the planet Venus. Most of its energy is emitted in infrared wavelengths.


In a report being published in Astrophysical Journal Letters, Liu and his colleagues said the object has properties similar to those of gas-giant planets found orbiting young stars.


Past reports of "rogue planets" have been murky, due to the fact that it can be hard to discriminate between large planets and a class of failed stars known as brown dwarfs. Some astronomers insist on a definition of planets that would apply only to objects that form around stars. They'd prefer to call objects like PSO J318.5-22 "planetary-mass objects," or planemos for short.


PSO J318.5-22 was discovered while the researchers was combing through data from Pan-STARRS 1 for readings from brown dwarfs. Brown dwarfs are typically faint and red, but Liu and his colleagues said PSO J318.5-22 stood out because it was redder than the reddest known brown dwarfs.


They followed up with observations using the Gemini North Telescope and the NASA Infrared Telescope Facility telescopes on the summit of Hawaii's Mauna Kea, and concluded that its infrared signature was more consistent with a young planetary-mass object. The science team also monitored the object for two years using the Canada-France-Hawaii Telescope, to determine its direction of motion and its distance from Earth. That's how they figured out it was 80 light-years away.


The team concluded that PSO J318.5-22 is associated with a collection of young stars called the Beta Pictoris moving group, which formed about 12 million years ago. The best-known star in that group, Beta Pictoris, is known to harbor a gas-giant planet that's about eight times as massive as Jupiter.


Gravitational perturbations may have kicked PSO J318.5-22 out of its planetary cradle soon after it was born, or it may have been formed by a different method. Either way, Niall Deacon of the Max Planck Institute for Astronomy in Germany, a co-author of the study, said PSO J318.5-22 should help scientists get a better understanding of other planets that aren't quite as lonely.


“Planets found by direct imaging are incredibly hard to study, since they are right next to their much brighter host stars," Deacon said in the news release. "PSO J318.5-22 is not orbiting a star, so it will be much easier for us to study. It is going to provide a wonderful view into the inner workings of gas-giant planets like Jupiter shortly after their birth.”

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