Astronomers See Second Earth in the Making

Astronomers See Second Earth in the Making
By Ker Than
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Astronomers have spotted evidence of a second Earth being built around a distant star 424 light-years away.

Using NASA’s Spitzer Space Telescope, astronomers have spotted a huge belt of warm dust swirling around a young star called HD 113766 that is just slightly larger than our sun. The dust belt, which scientists suspect is clumping together to form planets, is located in the middle of the star system’s terrestrial habitable zone where temperatures are moderate enough to sustain liquid water. Scientists estimate there is enough material in the belt to form a Mars-sized world or larger.

At approximately 10 million years old, the star is just the right age for forming rocky planets, the researchers say. Their finding will be detailed in an upcoming issue of Astrophysical Journal.

“The timing for this system to be building an Earth is very good,” said study team member Carey Lisse of the Johns Hopkins University Applied Physics Laboratory in Baltimore, Md.

If the star system were too young, the planet-forming disk would be full of gas, and it would be making gas-giant planets like Jupiter instead. If it were too old, Spitzer would have spotted rocky planets that had long ago formed.

The star system also has the right mix of dusty materials in its disk to form an Earth-like planet, Lisse said.

Using Spitzer’s infrared spectrometer instrument, the team determined that the material around HD 113766 is more processed than the snowball-like stuff that makes up infant solar systems and comets, which are considered cosmic “refrigerators” because they contain pristine ingredients from the solar system’s formative period. But it is also not as processed as the stuff found in mature planets and asteroids.

“The material mix in this belt is most reminiscent of the stuff found in lava flows on Earth,” Lisse said. “I thought of Mauna Kea [in Hawaii] material when I first saw the dust composition in this system – it contains raw rock and it’s abundant in iron sulfides, which are similar to fool’s gold.”

Earlier this year, scientists announced they had found evidence for one, and possibly two, already formed Earth-like planets around Gliese 581, a dim red star located only 20.5 light-years away. The possible planets, called Gliese 581c and Gliese 581d, are located at about the right distance from their star to support liquid water and life as we know it, but many more observations are needed to confirm this.

To date, planet hunters have discovered more than 250 extrasolar planets, or “exoplanets.” Most of the distant worlds, however, are giant gas planets several times the size of Jupiter.

While life is known to exist only on our planet, the range of exoplanet types found so far has astronomers increasingly confident that many worlds in our galaxy could be habitable. Finding Earth-like worlds in habitable zones is a first step toward the technically challenging task of discovering biology outside our solar system.


So, does this mean, we human being have a new place to stay ? ? ?

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2 Comments so far

  1. Pam Hoffman on October 5th, 2007

    You wrote…

    “So, does this mean, we human being have a new place to stay???”

    If this planet is visibly forming now, it could be fully developed at this moment – it depends on how far away this system is.

    If we were thinking of going there during it’s building process – could be a bit too warm, unstable and probably not a lot of oxygen to breathe. Not a nice picture.

    If this is tremendously far away, there is a chance that the system has already past it’s peak and the star has ended it’s life.

    It’s a funny thing, distance, in Astronomy. It is related to time – the further away we see, the longer ago it is.

    This event, as we see it now, is already past – if you are standing in that system this moment. What we see took 424 to travel to our telescopes AT LIGHT SPEED!

    So, predicting 424 LIGHT YEARS into the future of this forming rock… It might still be pretty hot, unstable and have more carbon dioxide than oxygen in its atmosphere.

    Anyone know how THAT works? I’m not sure…

    Lots to think about, eh?

    Pam Hoffman

  2. roslimh on October 5th, 2007

    will explore about this…and advise more findings here. Anyway, Pam, great sharing.

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