Data Suggests Early Universe was Superfluid 405
Ted writes "Experiments at the worlds largest nuclear collider, RHIC, at Brookhaven National Laboratory reveal striking new features of the state of the early Universe. With RHICs enormous collision energy, the researchers can create matter that is composed of the fundamental building blocks of nature, quarks and gluons, in a state with temperatures of more than 1000 billion degrees. The Universe is believed to have been in this state in the first microsecond after the Big Bang. Later the quarks and gluons were trapped in the nuclear particles that the visible universe is composed of today.
Until recently, researchers have thought that the quarks and gluons formed a gas. The latest results from RHIC, however, indicate that under the extreme conditions just around the phase transition from quarks and gluons to ordinary matter, the quarks and gluons behaved as a liquid - in fact an almost perfect liquid."
i had suspected this for years (Score:4, Funny)
This sfinally proves what I have been trying to explain for years.. the universe was born from a pool of beer!
Cosmic Egg Not Cooked Solid ... (Score:5, Funny)
1 trillion (Score:4, Informative)
We are all agreed that 1 million = 1x10^6.
In the world (Britain, France, and Germany) where 1 billion = 1 million million (1x10^12), then 1 trillion = 1 million billion (1x10^18) or another way 1 trillion = 1 million million million (tri-million), or million cubed, to the power of three, as in tri.
In the parts of the wolrd (US & Canada) where 1 billion = 1000 million (1x10^9), then 1 trillion = 1 million million (1x10^12) so 1 trillion = 1000 billion.
As it is an American lab, it will be 1x10^12.
Personally, i feel the Americans just like their numbers sounding bigger.
Re:1 trillion (Score:4, Interesting)
milliarde = 1000 million (UK) = 1 billion (US) = 10^9
billiarde = 1000 billion (UK) = 1 quadrillion (US)= 10^15
trilliarde = 1000 trillion (UK) = 1 sextillion= 10^21
(It seems that this is also sometimes used in english - milliard, billiard, triliard(?))
Obligatory Trek (Score:3, Funny)
Re:Obligatory Trek (Score:2, Funny)
That's one interpretation (Score:5, Informative)
Of course, all their software [bnl.gov] is in CVS, so it shouldn't be too hard to check their calculations.
Re:That's one interpretation (Score:5, Funny)
I couldn't check their spelling at this point... forget their calculations...
Re:That's one interpretation (Score:5, Funny)
Re:That's one interpretation (Score:3, Funny)
That's what Mick Jagger said.
Re:That's one interpretation (Score:5, Informative)
Matter can be in a "superfluid" state when in solid, liquid, gas, and plasma form (this is a fairly new discovery).
The term "superfluid" has more to do with whether various properties obtain than being an actual fluid.
Re:That's one interpretation (Score:5, Informative)
Supersolids (Score:5, Informative)
Kim and Chan [psu.edu] at Penn State claim to have created a supersolid state of matter in helium (and now, hydrogen). It's arguably the biggest experimental result in condensed matter physics right now; if confirmed, it will probably mean the Nobel Prize. However, theoretical studies have so far failed to unambiguously predict the existence of such as state of matter; there are arguments for and against, and the dust hasn't settled. If other experimental groups can replicate these results, we'll know for sure, regardless of whether theory has caught up with nature.
Re:That's one interpretation (Score:2)
Doesn't liquid helium come close to this state? Maybe I'm misremembering.
Re:That's one interpretation (Score:2, Insightful)
States of matter and fluid poperties are totaly different things and are often confused. Hope that clarifies it alittle better.
Re:That's one interpretation (Score:2)
The term "superfluid" has more to do with whether various properties obtain than being an actual liquid.
Re:That's one interpretation (Score:3, Interesting)
Glass is a fluid (a liquid,) it has never ever been a solid. The difference between glass and water is superficial and it is only due to difference in viscosity. Glass only looks to us solid because of specifics of our time perception. If we could percieve microseconds as we do years, water would have looked like a solid to us, if, for example, you tried to break it.
I hope you will not insist that the state of matter depends on our subjective perc
Re:That's one interpretation (Score:5, Insightful)
In fact, glass is an amorphous solid. If you heat it up enough, it becomes a supercooled liquid.
The example generally used to explain how glass is a liquid is that in old houses the glass has "flowed" down over time and is thicker at the bottom of the pane than it is at the top. This isn't necessarily true, but when it is it's generally because of the very old Venetian method of glass blowing, before it became common to float molten glass on mercury to get panes with even thicknesses. If glass actually flowed at rates that were visually perceptible even after centuries, then optical telescopes that rely on massive lenses and mirrors to maintain accuracy to fractions of a second wouldn't last very long at all. This isn't the case.
In short, mythbusted.
FURTHER proof, my friends: (Score:2)
Further proof, should you need it, that hindsight is *not* 20/20. I fscking hate that cliché; here is my public thanks for this story.
Perfect Liquid? (Score:5, Funny)
Re:Perfect Liquid? (Score:2)
Whew. Perfect liquid? I'd rather say it was a cask strenght single malt.
Re:Perfect Liquid? (Score:2)
Sir Adams [wikipedia.org] posits it was the mighty Pan-Galactic Gargleblaster(TM)
Re:Perfect Liquid? (Score:3, Funny)
So Douglas "Hitchhiker's" Adams was right again (Score:5, Funny)
The Great Green Arkleseizure Theory [angelfire.com]
"According to that most famous of sages, Douglas Adams, the Jartravartids believe that the entire Universe was, in fact, sneezed out of the nose of a being called the Great Green Arkleseizure. They live in perpetual fear of the time they call the Coming of the Great White Handkerchief..."
You mean... (Score:5, Funny)
Re:You mean... (Score:2)
Not much of a surprise (Score:2, Informative)
The big bang theory gained more credibility today with some news released by the National Science Foundation and collaborated by a United States team called Maxima with astronomers from the University of Minnesota and the University of California, Berkeley.
The soundwaves that were found are an impression of quantum scale energy fluctuations
Re:Not much of a surprise (Score:2)
Re:Not much of a surprise (Score:5, Informative)
For anyone who wants to know something about this, from a source that actually knows something, you might want to start with the wikipedia article on the liquid drop model [wikipedia.org] of the nucleus, and then this [wikipedia.org] one on superfluids in ordinary matter (as opposed to nuclear matter). Nuclear matter in its normal cold state (as found in the nuclei in your body) is a fluid (known since ca. 1930), and is also a superfluid. The mechanism that causes superfluidity in the atomic nucleus is in some ways analogous to the mechanism that causes superfluidity in some types of ordinary (very cold) matter. It's also been known for a long time that if you heated nuclear matter up to high temperatures (on the order of MeV's per nucleon), the superfluidity would vanish. This is exactly analogous to what happens if you heat a superfluid like helium-3 beyond a certain point: it undergoes a phase transition and is no longer a superfluid.
This new discovery is completely unexpected: if you heat nuclear matter even hotter (to on the order of GeV's per nucleon) it may somehow become a superfluid again (maybe depending on other variables, like pressure). This is the regime where everything is moving at relativistic speeds, and the quarks may actually be free to move around the whole fluid, rather than being bound in sets of three within individual nucleons.
Mod parent down - incorrect. (Score:5, Informative)
The CMB results have very little to do with the Brookhaven RHIC results. The CMB uniformity tells you nothing about the hydrodynamic properties of the quark-gluon plasma. The CMB does tell you about the electron-nucleon plasma that happened later.
And yes, I am a physicist.
Re:Not much of a surprise (Score:2)
As skeptics are skeptic on aliens and crop circles, everyone should still be skeptical of a universe thats so young, can you really disproove 100% that the universe isnt infinite in size, but we can only see
Re:Not much of a surprise (Score:2)
Re:Not much of a surprise (Score:2)
Good read on Quantum Gravity (Score:2, Offtopic)
For the scientific atheists... (Score:3, Interesting)
-------------
3: And God said, Let there be light: and there was light
6: And God said, Let there be a firmament in the midst of the waters, and let it divide the waters from the waters.
"the quarks and gluons behaved as a liquid - in fact an almost perfect liquid."
"The Universe is believed to have been in this state in the first microsecond after the Big Bang"
9: And God said, Let the waters under the heaven be gathered together unto one place, and let the dry land appear: and it was so.
"Later the quarks and gluons were trapped in the nuclear particles that the visible universe is composed of today"
Almost enough to make one a scientific believer. Finally, science is coming close to the Truth!
(Please mod +5 troll lol)
"Data Suggests Early Universe was Superfluid" (Score:5, Funny)
Liquids and Gasses are Fluids (Score:5, Informative)
Re:Liquids and Gasses are Fluids (Score:2, Informative)
The simple high-school chemistry definition is matter with no definite shape.
Wikipedia article here [wikipedia.org].
Re:Liquids and Gasses are Fluids (Score:2)
Yes, but one is compressible and the other is (largely) not. Solids also flow, if the particles are small enough, but that is not at the molecular level.
I'm thinking the proper term for the universe would be "superconfusing" for most non-PhD reseachers without funding. With funding dollars, it all becomes clearer.
This ain't superfluid, dammit. (Score:5, Informative)
Superfluid means more than low viscosity. Specifically, it indicates that the fluid is a degenarate Bose system, which the quark-gluon whateverthefuckitis is not. But the article submitter probably reads science articles in Wired and the NYT, and thinks he can throw the cool-sounding jargon around without anybody noticing that it's bullshit.
Re:This ain't superfluid, dammit. (Score:2)
Re:This ain't superfluid, dammit. (Score:5, Informative)
Some superfluids are degenerate Bose systems, e.g., helium-4. But some are fermionic, e.g., helium-3 [wikipedia.org], or nuclear matter in its ordinary (cold) state.
Re:This ain't superfluid, dammit. (Score:2)
So glass really is a superfluid then?
Re:This ain't superfluid, dammit. (Score:4, Informative)
A superfluid [wikipedia.org] refers to a viscosity-less fluid. The most common being He4, which is easy to produce, just cool liquid helium down to about 2.2K. This has to do with the quantum interactions between the helium atoms, and is similar but different to a Bose-Einstein Condensate. The He4 atoms have an even number of fermions (two protons, two neutrons, 2 electrons) and act like Bosons. Ie, they aren't restricted to Pauli Exclusion principle, and can all be in the same state.
Another superfluid can come from He3, a rarer isotope of helium. The He3 atoms themselves, now having an odd number of fermions, act like fermions, and obey Pauli Exclusion. However, at cold enough temperatures (a few mK) they can pair together, thereby acting like a Boson, and can also form a superfluid. This is a process fairly similar to the Cooper pairing of two electrons in a superconductor (in the superconductor the normally repulsive electrons are paired through a phonon interchange mediated through the material's lattice).
Now regarding the quark-gluon soup, the physicists are talking about a perfect fluid. I just saw a physics colloquium by one of these researchers a few weeks ago, and unfortunately I don't remember the details. But basically if you take a ratio or some other mathematical function of the viscosity and another hydrodynamic parameter I can't remember, like surface tension or something, in a perfect fluid these approach some standard value such as unity or zero or some such. (this confuses me now because the ratio in question is either zero or infinity if a helium superfluid viscosity is exactly zero, so this is why i am hesitant to say anything definitively about which mathematical function or quantities are measured).
No such perfect fluid is known to exist, and of all known fluids the closest one can come to it is a cryogenic superfluid, which has a value like 4 or 4pi or something like that. All other known fluids have this value substantially larger.
Regarding the quark-plasma soup, I believe the speaker said this wouldn' necessarily display the same properties of a quantum superfluid, maybe not perfect viscosity, I really don't remember exactly. I was trying to talk to him a bit afterwards, but I didn't know enough about the physics of superfluidity to really get into the details.
Mmm... (Score:4, Funny)
We call it a Trillion (Score:5, Informative)
Well, now I know why nobody is worried about the US national debt. 7 Trillion is, like, practially nothing. Let me know when we get to 7000 Billion and I'll start getting worried. And don't tell me that millions of millions crap - it just gets confusing. Besides, a million isn't as much as it used to be. Inflation, you know.
Hint: after Trillion, the next is Quadrillion, and then (hold you breath) Quintillion. Gosh it's, like, a pattern!
Numbers are naughty!!! (Score:3, Funny)
Re:We call it a Trillion (Score:2, Informative)
109 - millard (billion)
1018 - billion (quintillion)
1024 - trillion (septillion)
And so forth.
You insensitive clod! [onlineconversion.com]
Re:We call it a Trillion (Score:2)
Re:We call it a Trillion (Score:2)
*sigh* you're american so I suppose I can forgive you for ignorance.
</joke>
For pretty much everyone who speaks English (as opposed to American) until perhaps very recently it goes like this:
10^3: Thousand
10^6: Million
10^9: Millard (not commonly used)
10^12: Billion
10^15: Billard (not commonly used)
10^18: Trillian
and so on.
According to their meanings, Million means one set of 6 zeros. Billion means two sets of 6 zeros. Trillion means three, and then there's quadrillion, qui
Re:We call it a Trillion (Score:4, Informative)
10^9: Millard (not commonly used)
Not in English so much, but very common in German. A billion in Germany is always 10^12, and never 10^9.
Damn those 17th century Frenchies for changing the 200 year old long scale to the short scale, I say! Well, the Germans may not be known for their humour, but they are very good engineers, and they don't like their mathematical standards being changed. Actually, the Americans only changed because they were on better terms with the French than the British after their revolution.
I wasn't aware that the official scale in the UK and Oz had been changed, but when I did physics and maths at school, we never used "million" or "billion" as terms - we always had to specify large numbers like this: 1.234 * 10^12.
Here's a link [pballew.net] with more info on the subject.
-- Steve
Re:We call it a Trillion (Score:3, Funny)
And what comes after Billiards?
Snooker ?
Yeah? Well the white smoke suggests... (Score:2, Funny)
"in fact an almost perfect liquid." (Score:2, Funny)
A perfect fluid? (Score:2)
Hmmm...martini...
And God saw that it was wet. (Score:2)
Dang this fast-moving thing called science! (Score:2)
at first I thought that read... (Score:2)
Am I the only one who read that as: (Score:2)
Perfect liquid? (Score:2)
So what are you saying? It got them drunk? I mean, it's like beer or something, but no hangover? Cool.
The Bible says so (Score:4, Funny)
Guess the aliens that left the bible on earth was more advanced than we are
Re:The Bible says so (Score:3, Insightful)
See, the Big Bang was more like, first there was liquid, then there was GAS (a step utterly missing in the bible), then there was liquid again as gravity collapsed clouds of hydrogen, then there was plasma as the star ignited, then it went bang and it was gas again... and only after a few more such cycles you had enough of the heavier elements to have land as we know it.
Besides, the last time I've read the bible it was more about Earth tha
Re:The Bible says so (Score:2)
In Soviet Russia, Slashdot hates you less and less each night, Fuck!
Shhhh! (Score:2)
Jokes aside, this goes a long way to galvanize the theories of hydrodynamics (see: fluid dynamics for wikipedia) [wikipedia.org].
Re:I hate to sound like I'm trolling... (Score:5, Insightful)
Re:I hate to sound like I'm trolling... (Score:2, Informative)
However, this has important ramifications in terms of physics. We now know the "what" and "when" - now we need to learn the "why" and "how." Knowledge is never wasted. This may very well be the first baby-step towards warp drive and gravity guns
Re:I hate to sound like I'm trolling... (Score:2)
Re:I hate to sound like I'm trolling... (Score:5, Insightful)
Besides, "useless" knowledge often proves key to unintendend, unsought, useful advances.
Re:I hate to sound like I'm trolling... (Score:2)
Think logarithmically (Score:5, Insightful)
To understand this you first need to abandon your familiar linear timescale, and learn to think about time logarithmically. This is also important for understanding particle decay times as well- strange particles were originally called "strange" because they hung around for 10e-10 seconds instead of the usual 10e-15 to 10e-20 seconds for particles based on up/down quarks. If particle physicists were thinking on a linear timescale, they would just say "gee all these particles are gone in a jiffy!" and we wouldn't have strange quarks today- with all their accompanying technological advantages!
Remember, the few billion years that the universe has been around is going to seem like a really short time 10e60 years from now. The slow-moving beings of that era are going to post to their discussion boards asking why anyone would care about what the universe was like for its first 10e10 years.
Re:I hate to sound like I'm trolling... (Score:3, Interesting)
Look how many people in this thread posted some reference to Genesis. It's the same search in a way. But instead of just making it up or believing in the made up, this method tries to find some data to back the answer up with.
Re:I hate to sound like I'm trolling... (Score:2, Interesting)
Re:I hate to sound like I'm trolling... (Score:5, Interesting)
The 'microsecond' referred to here would be imaginary time. Not imaginary as in 'imaginary numbers' (which don't technically exist but are still useful), but imaginary as in non-relativistic. In other words, the entire process could occur in a microsecond if we reproduced it today, but in relativistic time, it may have, as you said, taken eons.
Re:I hate to sound like I'm trolling... (Score:4, Funny)
What's even more interesting is the concept that Stephen Hawking and others refer to as 'imaginary time.' Since, as you point out, time expanded alongside space, we can't really measure how old the universe is, since it may be infinitely old from any vantage point within it. (If space was ever infinitely small, then real time is infinite.)
I've been wanting to get paid for this imaginary time for decades, but somehow various employers haven't approved the timesheets. And they've not bought into the idea that I've been solving their problems on the existential plane and working while sleeping (or travelling to work). Then again, I don't have a Ph.D.
Fucking ungrateful bastards.
Re:I hate to sound like I'm trolling... (Score:2)
Big science costs big money, and that money comes out of the same money that pays for education, roads, defence, etc.
(I'm not arguing this project is a waste of money)
Re:Universe (Score:2, Informative)
Liquid (defined by Education Outreach): One of the basic three phases of matter; characterized by free movement of the constituent molecules among themselves but without the tendency to separate.
This definition precludes most of the real estate in the known Universe.
Re:Universe (Score:2, Informative)
Re:Black holes also being created at RHIC? (Score:2)
Re:Black holes also being created at RHIC? (Score:2, Informative)
if the sun instantly shrunk to a black hole, there would be no change in the earths orbit, or any of the planets, the gravitational pull would be _exactly_ the same as before.
Just some clarification on what a commo
Re:Black holes also being created at RHIC? (Score:2)
Re:Black holes also being created at RHIC? (Score:2)
Of course, I have no idea of how much matter you need to make a non-subatomic-sized black hole.
Re:Black holes also being created at RHIC? (Score:3, Informative)
You're halfway there, but for the wrong reason. A tiny black hole just bumps into atomic nuclei less frequently, since it is sitting in a big pool of them (the Earth, since it fell out of whatever created it).
The problem with all this, however, is that tiny black holes evaporate [wikipedia.org], and therefore won't stick around very long. Physics collider ones don't stic
Re:Black holes also being created at RHIC? (Score:2)
Re:Bible reference (Score:2)
>the Spirit of God was hovering over the face
God's Chosen Spirit is, IIRC, aqua vit. But whose was the face?
Re:Bible reference (Score:2)
Re:Bible reference (Score:2)
Re:Question? (Score:2, Informative)
Re:Question? (Score:2, Insightful)
And as bad as any other
Re: The Distribution of Galaxies in the Universe (Score:2)
That is, the universe contains huge roughly spherical voids, and most galaxies are located where these voids meet.
Re:light travel problem (Score:2)
Re:light travel problem (Score:2, Informative)
The universe is not 6.8 billion years old. It's far older and the proof is our sun. Sol is a third generation star, its makeup is proof in that it's a meager yellow dwarf which will grow large then collapse into a white dwarf. Its parent and grandparent detonated in an amazing supernova which led to the ignition of Sol.
The fact that our solar system is full of heavier elements is proof of our sun's age and lineage. Each atom of lithium, carbon and iron was created in the heat of a supernova.
Re:Already covered this (Score:2)
Re:Nope (Score:2)
Re:Nope (Score:2)
Newsflash. We are a part of the universe. A small part. A tiny, insignificant part. It doesn't depend on us for *anything*.
Re:Nope (Score:2)
Re:A Quick Question (Score:2)
Hear, hear.
I've been quite surprised at the influx of "odd" observations over the past few years; I certainly wasn't expecting local pancake structures.
You raise a pretty good point, though, on the structure of disks, large and small, in the first place.
Plasma physicists jump up and down that the in-vogue theories treat large-scale magnetic fields and currents as non-existent, as though charge must cancel out on the large scale, therefore it has no effect. Sometimes, they make a good point - some of t
Re:In The Beginning (Score:2, Troll)
Cool!
Re:In The Beginning (Score:2)
There is No First Cause (Score:2)
There is no "first cause"; there needs not be. The desire to find a 'cause' or a 'meaning' in natural events is just a continuation, a perversion of humans' social nature. In a social context, it is important, well actually it is absolutely necessary to be able to infer the intent of others' that caused the current state of social things.
We have evolved into being able to do this; and we need to do this all the
Well he actually was ignorant (Score:2)
And that's quite a lot.