Massive Exoplanet Discovered, Challenges Established Planet Formation Theories 129
sfcrazy writes "A giant exoplanet that is in the most distant orbit ever seen around its host star, has been recently discovered. Dubbed HD 106906 b, the newly discovered planet is relatively young (13 million years old, compare this to our 4.5 billion years old Earth) and bigger than any other planet discovered till date. It is 11 times the size of Jupiter, and that's what makes it a most singular discovery."
Can someone who knows about astronomy fill me in? (Score:5, Interesting)
Re:Can someone who knows about astronomy fill me i (Score:5, Funny)
By counting the rings, obviously ;)
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That only works if you can cut it in half first.
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You know, if Johann Elert Bode, the man who ultimately named Uranus, had any inkling that the naming of the planet in this way would lead to the untold gazillions of sexual puns made with his choice, he would have killed himself.
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When Uranus was discovered the common pronunciation for the old Greek sky god's name was something akin to urine-us, which at the time was considered far more vulgar than the ur-anus pronunciation. Today it is the other way around. Who knows which pronunciation will be considered ruder (or more childish) a few centuries from now.
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Or just go with the flow and name it's next moon they discover, "Enema"..
Re: Can someone who knows about astronomy fill me (Score:1)
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And what exactly do we know about planet formation? If anything, we have a hunch how our system formed, but it's neither certain nor do we have any clue whether it's the norm. We already know that our system is in some ways "special", from the rather high amount of trans-HE material to its position in the galactic disc to the mere fact that it's not a multi-star system.
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Re:Can someone who knows about astronomy fill me i (Score:4, Informative)
And what exactly do we know about planet formation? If anything, we have a hunch how our system formed, but it's neither certain nor do we have any clue whether it's the norm. We already know that our system is in some ways "special", from the rather high amount of trans-HE material to its position in the galactic disc to the mere fact that it's not a multi-star system.
Actually we still don't know enough about stellar formation to determine how far from the norm, the Solar System actually is. The reason that we find so many oddball systems and planets is that those are the easiest systems and planets to find. We are in a form golden area of our Galaxy, far enough from the galactic center that we're not subject to it's nasty radiation and stellar activity, yet not so far that we'd lack in heavy elements. Keep in mind also that most planet detection methods rely on the target solar system being oriented edge on towards us so the planet can intercept the star's light by passing between it and us. That's going to leave a lot out.
Re: Can someone who knows about astronomy fill me (Score:1)
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Don't forget gravitational lending .......
"Hey Jupiter, I'm feeling a bit lightheaded.. can you lend some of your gravity please?"
Re:Can someone who knows about astronomy fill me i (Score:4, Insightful)
Guesswork. They take what they think they know and use it to make a guess that will change every time they find out what they thought they knew was wrong. It's fun to follow but don't put too much faith in it.
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If you don't have any information to provide, please don't try to act like you do.
"They take what they think they know and use it to make a guess"
Thanks for that brilliant insight.
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Am I wrong? It's exactly what happens. A guess based on the slimmest of knowledge. I can't count how many times I've seen these sudden bursts of enlightenment get changed when everything they thought they knew gets turned upside down. It's a guess and only by the loosest term an educated one. I'm sorry if the facts hurt your feelings.
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Too bad your comment doesn't.
Seriously, the religion-bashing knee-jerk comments are garbage. Too bad the mods don't have the common sense to just mod you as off topic or over rated and maybe you'd be forced to make an actual intelligent contribution to the conversation to maintain a good karma.
If you're only contribution to science is shouting down theists than you're not doing much better than the theists shouting down science. Go pick up a book and learn a little science and have something
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No offense, but he kept his remark short and sweet. He didn't go into some serious diatribe about how religion is tearing down society or more. Because of that, I give him a pass. I would have probably worked the system a bit more explaining the evils and blah blah blah, I am bored and think I will go get a cookie.
Re:Can someone who knows about astronomy fill me i (Score:4, Funny)
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Re:Attention! Mod parent DOWN! (Score:5, Funny)
I work at Facebook. You do NOT see the date of which a person was born with said birthday notifications. I suggest you go home and do your homework.
What's more distressing is that you, a Facebook employee, know that he's not at home. Dun dun dunnnn....
Re:Can someone who knows about astronomy fill me i (Score:5, Informative)
http://www.scientificamerican.com/article.cfm?id=how-do-scientists-determi [scientificamerican.com]
Re:Can someone who knows about astronomy fill me i (Score:5, Interesting)
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Nice article, but that only says how they get the age of a star. I suppose that puts an upper limit on the age of the planet.
More than an upper limit. Unless the planet is a captured rogue, knowing the age of the star gives you the age of the planet, pretty much. If you know the age of someone's heart, you know the age of their head, too (transplant patients excepted).
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Couldn't a pre-existing planet be captured by a new star? I can imagine a situation where a star going dark sends its planets drifting through deep space only to be captured again later.
Re: Can someone who knows about astronomy fill me (Score:1)
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In a huge universe, anything's possible ...
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Nice article, but that only says how they get the age of a star. I suppose that puts an upper limit on the age of the planet.
At least if we assume that the planet was formed with the star. But what if the planet had formed around another star, and then was ejected from that system due to some disturbance, to be later captured by the star it is circling now?
That would be kind of tricky. The planet is moving at escape velocity from it's original star, in most cases, encountering another solar system would have it either just passing through, or it would wind up in a very eccentric orbit. which would not necessarily be in the same plane as the local ecliptic.
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It could twat into a planet that's already there. Or several.
Maybe that's why it's so big?
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How do astronomers calculate the age of a distant planet? I can see how they'd get distance from host star (orbital period) and mass (displacement of host star) but how on earth do you work out the age?
They can't accurately predict it to a degree of 100% certainty. However they can guess based on it's radiation level and it's decay of said rad signal. They can also compare it to surrounding star systems and see if they have been influenced for an extended period of time or more recent (recent as in millions of years ago instead of billions of years).
It's not an exact science but at least it gives them a ballpark figure until they can manage to actually get to that planet and get samples. However, that
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The problem in this case is that the discovery supposedly has the potential to challenge existing planet formation theories. If that is true, then the methodology to calculate this planet's age may be flawed.
Re:Can someone who knows about astronomy fill me i (Score:5, Informative)
OK I answered my own question with some googling.
http://www.universetoday.com/76495/the-hunt-for-young-exoplanets/ [universetoday.com]
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A paper by Bailey et al. is here... http://arxiv.org/abs/1312.1265
The age is estimated from the primary star. Presumably the system formed all at the same time, star and planet together. (It's difficult to gain a planet in some other way, such as "capture," especially in such a short period of time since the star's birth.)
The planet's mass is estimated from the brightness and color of the planet. HD 106906 b is a rare case where the companion can be resolved from its primary so a spectrum can be measure
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I'm guessing you meant 1800 arcseconds, unless the moon really let itself go while I wasn't looking and is now several thousand light years across. :)
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but how on earth do you work out the age?
Umm, the same way you work it out on other planets??
[ducks]
Upper limit on planets? Lower limit on stars (Score:2)
Becoming a star requires at a minimum many times the mass of jupiter. As small stars exist, there's therefore a likelihood that there are gas giants almost as big a the minimum to make a star.
A quick google seems to suggest that's 8% the size of the son
As Jupiter is 0.1% size the son, 11x the size of jupiter doesn't seem that big. We should be able to find "planets" up to almost 80x larger
http://www.space.com/21420-smallest-star-size-red-dwarf.html [space.com]
http://www.wolframalpha.com/input/?i=jupiter%20mass%20comp [wolframalpha.com]
Re:Upper limit on planets? Lower limit on stars (Score:4, Funny)
that's 8% the size of the son
Or 0.003% the size of yo momma.
Re:Upper limit on planets? Lower limit on stars (Score:4, Funny)
Yo mama so fat, if she was any bigger she'd start fusing hydrogen.
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Yo mama so fat, if she was any bigger she'd start fusing hydrogen.
Yo momma SO fat, every time I am done visiting her, I have to break orbit.
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Wikipedia says that at 13 times the size of juptiter you get something that can ignite and you get a brown dwarf.. How that is calculated is beyond me..
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the Tall Man can do custom orders?
Re:Upper limit on planets? Lower limit on stars (Score:5, Informative)
That's the mass threshold for deuterium fusion. No fusion = planet, deuterium fusion = brown dwarf, hydrogen fusion = main sequence star.
So at 11 Jovian masses, the planet is close, but not quite big enough to reach brown dwarf status.
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A certain amount of mass equals a certain amount of pressure, which is what's required to start hydrogen fusing.
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Wikipedia says that at 13 times the size of juptiter you get something that can ignite and you get a brown dwarf.. How that is calculated is beyond me..
From hydrostatics: the more mass you build up, the higher the pressure --and the temperature-- becomes in the core, and then you reach a point where the temperature is high enough to start fusing stuff up (as per definition of 'a star'). This, for hydrogen, happens at some mass limit or other which is at around a few Jupiter masses.
It is a back-of-the-envelope calculation really, though there are a few other, more sophisticated models, around.
Re:Upper limit on planets? Lower limit on stars (Score:5, Interesting)
Well, mass and size get thrown around a lot semi-interchangeably which they're most definitely not.
80x the MASS of Jupiter and something becomes a star, but the established theory IIRC was that until you get to that point you keep cramming things in and the planet itself just kinda compresses more and doesn't get much bigger than Jupiter. If it ever gets big enough to become a star and achieve fusion then the pressure pushes it out and then it gets better.
So if it is as the summary says and the planet is literally 11 times the size of Jupiter then that's quite a find. It basically says that there's either something wrong with either a) our understanding of planet formation or b) there's something wrong with how we measured this and the data is just wrong.
If its 11 times the mass then yeah - kind of boring and expected.
Re:Upper limit on planets? Lower limit on stars (Score:4, Funny)
"If it ever gets big enough to become a star and achieve fusion then the pressure pushes it out and then it gets better."
Unless you live there. Then it gets worse. Much worse.
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Ah. Typing goof. Meant to say bigger, not better. Often times those are as misused as the mass and size situation though :).
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So if it is as the summary says and the planet is literally 11 times the size of Jupiter then that's quite a find. It basically says that there's either something wrong with either a) our understanding of planet formation or b) there's something wrong with how we measured this and the data is just wrong.
Maybe it's just 11x closer than they think it is, and moving away faster than expected. Would still be an interesting system to find.
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Bad summary. The point of the article is that:
- the distance the planet is orbiting its primary is much farther out than current planet formation theories support.
- the planet is not massive enough compared to the primary to fit the theories on binary star formation.
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Becoming a star requires at a minimum many times the mass of jupiter. As small stars exist, there's therefore a likelihood that there are gas giants almost as big a the minimum to make a star.
A quick google seems to suggest that's 8% the size of the son
As Jupiter is 0.1% size the son, 11x the size of jupiter doesn't seem that big. We should be able to find "planets" up to almost 80x larger
http://www.space.com/21420-smallest-star-size-red-dwarf.html [space.com] http://www.wolframalpha.com/input/?i=jupiter%20mass%20compared%20to%20sun&t=crmtb01 [wolframalpha.com]
Those are objects known as Brown Dwarfs which would put them at a different category than Jovian planet. I believe that the minimum mass to establish fusion is something on the order of one tenth solar mass. Brown Dwarves radiate Infared radiation due to heat from residual gravitational collapse. Presumably the standard is considerably higher than Jupiter which also radiates more heat than it absorbs from the Sun.
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There is a class of objects between planets and red dwarf binaries.
11 times the size of Jupiter? (Score:2)
The Gravity must be immense, we'll need to ban their Olympic athletes from participating in the summer games.
Re:11 times the size of Jupiter? (Score:5, Informative)
If it's 11 times the diameter, then gravity would be pretty tame at the surface unless it's extremely dense. For example, Jupiter's diameter is 11.2 times that of Earth, but the surface gravity is only 2.64 times that of Earth. Saturn and Uranus both have equatorial surface gravities roughly equal to Venus, in spite of being 9.44 and 4 Earth diameters, respectively.
Source: http://www.windows2universe.org/our_solar_system/planets_table.html [windows2universe.org]
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If it's 11 times the diameter
It's not - it's 11 times the mass.
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But seriously. The coincidence of this timing is just... amazingly awesome.
What, discovering a planet - presumably a gas giant, not a rocky world like Gallifrey - 11 times the size of Jupiter a couple of weeks after a TV show featured a planet a few times bigger than Earth?
Yeah, wow. It's like they knew, or something.
They're discovering planets at a rate of about one every two days now (probably more, that was just based on a list I found for 2013) and most of those would be much closer in size to Gallifrey. All, in fact, since this one is the biggest we know of.
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I can hear the Whovians now.. but wait in "End of Time" when Gallifrey appears next to earth it's only like 5 times the size of the earth.. Jupiter is 1321 times the size of the earth [universetoday.com] and this planet is 11 times that. Besides all the Timelords would be walking around and looking all squatty like Sontarans.
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It's bigger on the surface, duh!
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Jupiter's volume is 1,321 times Earth, but its diameter is only a little over 11 times Earth's. I believe diameter is what you're thinking when you say Gallifrey appears five times the size of Earth. If its volume was five times the size of Earth, the diameter (assuming perfect spheres for the sake of simplicity) would be about 1.71 times the size of the Earth. It's hard to find a good picture of Gallifrey next to Earth from that episode in which the two are equidistant from the observer, but based on the o
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Looking back, I think I mixed up radius and diameter in a few calculations, so... bonus points and cookies to anyone that corrects them.
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Uhm, no It looks about 5 times the size in terms of apparent size. Here's a still from "End of Time." [doctorwhoreviews.co.uk]
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That one shows Gallifrey in front of Earth... without knowing how close either one is, Gallifrey could be the size of an asteroid. The link I provided shows Gallifrey behind Earth... and as it still appears larger in spite of being more distant, that's the basis of everything else I posted.
So if we send out the black monolith now (Score:1)
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It's been done. Except when it came their turn to do it, they sent back telephone sanitization kits.
That's no Exoplanet! (Score:2)
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So your guess on humanity's reaction to discovering a stellar engine, ringworld or similar megastructure would be...?
Is is most singular is right (Score:1)
whatever that means.
Huh? (Score:3)
"Most singular" does not mean anything. It's gratuitous gibberish.
Most is a superlative, it only makes sense when comparing 3 or more things (plural.) No comparing was being done here, and "singular" is a word whose meaning allows no opportunity to augment it with a superlative. There is no more or less singular, no least or most singular, singular is simply singular.
It's not exactly shocking to see poor English in a slashdot writeup, but this one manages to be even worse than expected.
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That was a most satisfying demonstration that your pedantry outstrips your knowledge of the English language./pL
Singular discovery (Score:2)
It is 11 times the mass [FTFY] of Jupiter, and that's what makes it a most singular discovery.
Much as I enjoy the Sherlockian prose, every time we discover a new most massive planet, it's going to be a singular discovery.
The missing context here is: how massive was the previous recorder holder?
Not size - mass (Score:2)
It is 11 times the size of Jupiter, and that's what makes it a most singular discovery.
Oh dear. Do we have to have the talk again?
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Whooops. Yes, sorry. See comment below. :(
Size? (Score:2)
I wonder, when astronomers say 11 times the size of Jupiter, does that mean 11 times the radius, the mass, or that you could fill the sphere of its volume with 11 jupiters? Or the circle area as seen from earth?
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In order to answer this, I plugged "size" into a dictionary and used the result easiest to work with.
"2. each of the classes, typically numbered, into which garments or other articles are divided according to how large they are.
"I can never find anything in my size""
In other words, if Jupiter wears size 10 pants, this new planet wears size 110. Fatass spacerock needs to lay off the Mars bars.
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I expect astronomers would normally specify mass or radius/diameter rather than use size ambiguously. And the article doesn't use the word size, so can't fault the journalist. Summary writers, however ...
(11 x mass BTW)
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I wonder, when astronomers say 11 times the size of Jupiter, does that mean 11 times the radius, the mass, or that you could fill the sphere of its volume with 11 jupiters? Or the circle area as seen from earth?
It would always be by mass, since it's pretty much nearly impossible to actually get a reading on the radius. Also physics pretty much determines what happens when you've got a gas giant of that mass.
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I hereby name this planet, Planet Enzyte.
Of course planet formation theory will need fixing (Score:2)
As the set of planets grows, theories will have to change as we have based the original ones on a single sample that may or may not be representative of the full set.
It's like basing an entire theory of construction of buildings on De Aar, South Africa and while it may explain most small towns, the suburbs of most cities, it will fall apart completely when you try and explain Manhatten or wooden houses in the US with it.
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headline isn't quite correct (Score:5, Informative)
Very Young (Score:3)
So are you saying it's a Day Zero Exoplanet?
How old is the star? (Score:2)
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And because this planet seems to have a regular orbit we can consider it formed at the same time it's sun was formed, that's what solar systems typically do.
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If it was binary, that would be only 3 times the mass of Jupiter!
No, I'm not going to apologize for that.
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What about Hexadecimal Star Systems? Do they exist?
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Ok, troll, wtf, I have a few minutes:
1) "Why do these stupid Christians keep challenging established FACT"
Religion is based on faith. Facts are more or less irrelevant.
2) "We all know how planets form"
No, we don't. We've got some good theories, and they will be fine-tuned as more and better observations (facts) are made.
3) "Science Works!"
Well, one out of three is better than nothing, I guess.
"Computers are like Old Testament gods: lots of rules and no mercy" - Joseph Campbell