[url=http://www.bbc.co.uk/news/science-environment-23032467]Article:[/url]
[quote][b]Scientists have identified three new planets around a star they already suspected hosted a trio of worlds.[/b]
Scientists have identified three new planets around a star they already suspected hosted a trio of worlds.
It means this relatively nearby star, Gliese 667C, now has three so-called super-Earths orbiting in its "habitable zone".
This is the region where temperatures ought to allow for the possibility of liquid water, although no-one can say for sure what conditions are really like on these planets.
Gliese 667C is 22 light-years away.
Astronomers can see it on the sky in the constellation of Scorpius (The Scorpion).
Previous studies of Gliese 667C had established there were very probably three planets around it, with its habitable zone occupied by one super-Earth - an object slightly bigger than our home world, but very probably with a rocky surface.
Now, a team of astronomers led by Guillem Anglada-Escude of the University of Göttingen, Germany, and Mikko Tuomi, of the University of Hertfordshire, UK, has re-examined the system and raised the star's complement of planets.
The researchers used a suite of telescopes including the 3.6m telescope at the Silla Observatory in Chile. This incorporates the high-precision Harps instrument. Harps employs an indirect method of detection that infers the existence of orbiting planets from the way their gravity makes a parent star appear to twitch in its motion across the sky.
[b]Full to bursting[/b]
The planets' presence needs to be disentangled from this complex signal but the Harps instrument is recognised as having tremendous success in identifying smaller worlds.
Gliese 667C is a low-luminosity "M-dwarf" star just over one-third the mass of our Sun.
This means its habitable zone can be much closer in before temperatures make liquid water impossible. The team is now confident that three rocky worlds occupy this region at Gilese 667C.
"Their estimated masses range from 2.7 to 3.8 that of the Earth's," Mikko Tuomi told BBC News.
"However, we can only estimate the physical sizes by assuming certain compositions that is, well, only educated guessing.
"Their orbital periods are 28, 39, and 62 days, which means that they all orbit the star closer to its surface than Mercury in our own system. Yet, the estimated surface temperatures enable the existence of liquid water on them because of the low luminosity and low mass of the star."
These planets are said to completely fill the habitable zone. There are no more stable orbits in which to fit another planet.
That said, the team has found tantalising evidence for what may be another rocky world on the inner-edge of the zone.
[b]Fruitful targets[/b]
The planets would need an atmosphere to sustain liquid water on their surfaces, but at a distance of more than 200 trillion km, there are no means currently to determine what the precise conditions are like or whether life would have any chance of establishing itself.
Nonetheless, Dr Tuomi believes M-dwarf stars are good candidates to go hunting for potentially habitable worlds.
They a small enough that close-in rocky planets will show up well in the Harps Doppler spectroscopy data, but they are also dim enough that those close-orbiting worlds will not be roasted.
"This discovery single-handedly demonstrates that low-mass stars can be hosts of several potentially habitable planets," explained Dr Tuomi.
"In practice, it means that we might have to double or treble our estimates for the occurrence rate of habitable-zone planets around M-dwarf stars.
"There might, in fact, be more habitable-zone planets in the Universe than there are stars, which makes it much easier for the future space missions to obtain images of these planets.
"So, although only a rather simple discovery, its implications might force us to re-think how common habitable-zone planets are in the Universe."[/quote]
-
Am I the only one who is disappointed that FTL travel is improbable?
-
Edited by EshraytheGrey: 6/26/2013 9:59:46 AM
Started a new topic: Space flight to Gliese 667C! (LAUNCH!)(47 Replies))
-
Very well, I shall begin working on a passenger ship with a a warp drive equipped immediately. Normally I would keep my work secret, but this time, off to Gliese 667C! estimated travel time, 14 earth hours, so sit back and get comfy, we're riding the waves of spacetime!
-
Gliese Glese Glee yeah we should blow that star up right now
-
So could we live on this planet one day?
-
Question: why do we only ever find super earths? Is it that the method we're using to detect planets can't detect anything smaller? cheers.
-
When do we invade and where do I sign up to go kill me some aliens and -blam!- those planets of it's resources?
-
What an amazing time to live in--too early to explore these places, but far enough advanced to realize how insignificant we are.
-
Are you taking the voyage to it?
-
Reminds me of the badlands on Sanghelios...
-
Edited by Banned Man 3000: 6/25/2013 5:33:43 PMOur fastest, theoretical engine can go no where near light speed, this planet is a while away yet
-
So will it ever be reachable?
-
So human colonists to this system would be known as "Gliesians"? That's about a 6/10 on the badass scale. We need to rename this shit.
-
The interesting part to me is that we can only see what happened 22 years ago on these planets.
-
F-ing awesome!
-
*knew about Gliese 667C before news report was about it* I wish they mentioned Gliese 667Cc. It looks like a beautiful planet. And it's only 20 degrees (Celcius) hotter than Earth on average.
-
I hate and love the fact I was born when I was. I was born to late to explore and discover the Earth. I was born to early to get to explore the galaxy.
-
Potential for aliens! Kill it, kill it with fire!
-
Is that Tatooine?
-
Now all we need is a warp drive, cryogenics, and a terraformer.
-
Our worst fears have come true gentlemen...PREPARE THE DEATH RAY! Only joking...seriously this is good, the more potential for hospitable planets the better. Now to find a way to get there. Suppose there is something alive capable of thinking there...would it take 22 years for a light signal to get there, or am I getting the distance measurement wrong?
-
Edited by DarkSpyda04: 6/25/2013 5:06:13 PM22 light years? So it's in our galaxy; 209 trillion kilometers, albeit.
-
Really cool.
-
I for one welcome our new super-earth overlords
-
Let's kill them and rob them for everything they have, and keep the children as slaves.
-
Just because it can support life doesn't mean to say that it does. I also think that with it being 22 light years away it'll have till wait till we invent warp drive.