New State of Matter Could Extend Moore's Law

rennerik writes "Scientists at McGill University in Montreal say they've discovered a new state of matter that could help extend Moore's Law and allow for the fabrication of more tightly packed transistors, or a new kind of transistor altogether. The researchers call the new state of matter 'a quasi-three-dimensional electron crystal.' It was discovered using a device cooled to a temperature about 100 times colder than intergalactic space, following the application of the most powerful continuous magnetic field on Earth."

Quasi three dimensional crystal?

[Anonymous Coward]

I believe the term you're looking for is Dilithium.

Re:Quasi three dimensional crystal?

[Anonymous Coward]

and if you need some extra CPU power just find the naval base in Alameda. It's where they keep the nuclear wessels.

Re:Quasi three dimensional crystal?

[Idiomatick]

On a nerd side note. We all know Dilithium in reality is a gas. But at the temperatures stated in the article. Would it be able to form a solid? Likely it would NOT be a crystal but it'd be fun to know.

Re:

[Ortega-Starfire]

Dilithium is a Quasi 4 dimensional crystal.

This could be the basis for transtator technology though.

Hell Yeah!

[SpiderClan]

" It was discovered using a device cooled to a temperature about 100 times colder than intergalactic space, following the application of the most powerful continuous magnetic field on Earth."

That's exactly what I want in my office.

Re:Hell Yeah!

[Ethanol-fueled]

You can borrow my wife if you want powerful attraction followed by extreme coldness.

Re:Hell Yeah!

[Anonymous Coward]

I did borrow your wife last night... she wasn't that great.

Re:Hell Yeah!

[PopeRatzo]

C'mon guys, let's get off wives.

('Cause I just got off yours...)

Re:Hell Yeah!

[Forrest Kyle]

That's what she said.

Re:

[Kagura]

That's what she said. :)

Re:Hell Yeah!

[spun]

I taught your girl that thing she does with her tongue.

You're the one who taught her how to nag? You utter bastard.

Re:Hell Yeah!

[grub]

It was discovered using a device cooled to a temperature about 100 times colder than intergalactic space

Here in Winnipeg we could just put these units outside thus eliminating the need for cooling units. You can't get much more environmentally friendly than that!

Re:Hell Yeah!

[JustOK]

they tried. the mosquitoes took them.

Re:

[myrdos2]

There are only two seasons here - winter and construction. And you picked the wrong one!

Next you'll be skiing in July and going down detours in December.

SSDs

[Roger W Moore]

Just be thankful we have SSDs now - I'm not sure HDs would be compatible with such a system!

Re:Hell Yeah!

[Valacosa]

If you did have it in your office, there's not much danger of it blowing up, but the vacuum pumps would be pretty loud.

Intergalactic space is about 2 or 3 Kelvin. Getting down to 100 times colder than that - 20 or 30 millikelvin - requires a Helium 3 dilution fridge. Helium 3 is a rare (and expensive) helium isotope. Physics labs can afford this sort of equipment, but we're not going to be using the setup for gaming anytime soon.

Not to mention, the vacuum pumps, the cold trap and the helium storage system would probably take up most of the space in your cubicle anyway.

Re:

[rennerik]

If you did have it in your office, there's not much danger of it blowing up, but the vacuum pumps would be pretty loud. ...

Not to mention, the vacuum pumps, the cold trap and the helium storage system would probably take up most of the space in your cubicle anyway.

They're not talking about cooling your computer that way, but about creating the transistors that way. There's nothing in the article that says that they have to be continuously kept at that temperature.

I'm pretty sure once it's done, it's done.

Re:

[rossdee]

"temperature about 100 times colder than intergalactic space"

How can you have something that is 100 times colder than space. I think that space runs at about -270 C, so to be 100 times colder it would have to be -2700 C. I thought absolute zero was -273.15 C at which point all movement is stopped, so how do you get a temperature below that?

Re:100 times colder than what?

[againjj]

TFA doesn't state any specific temperature, but I find the analogy to how "cold" space is rather troubling. Space is really "warm", as it contains energy left from the Big Bang (although no one with a common sense would describe it that way in daily talk), and saying that something is so many times colder than space really just doesn't make sense. You can always compare sizes, but as heat is a positive size, because you can't have negative energy, you can just say "this is a hundred times hotter than that" or "my freezer is two times as cold as my refrigerator compared to my living room". The one who thought of this analogy could be talking about degrees on Celsius or Fahrenheit, but then those numbers must be way below absolute zero, or 0 Kelvin, as space is just 2.7 Kelvin, or -270.7 C ( http://helios.gsfc.nasa.gov/qa_sp_ht.html [nasa.gov] ) and taking for granted he is comparing the temperature of space to 0 ÂC, that means that those crystals are actually -27070 C. And _that_ would be some real frontpage material...

You seem confused. He speaks of "a temperature about 100 times colder than intergalactic space". Intergalactic space has a temperature of about 3K. It does not make sense to talk of degrees C, since C is not an absolute scale. 100 times colder than 3K is 0.03K.

Re:

[sexconker]

100 times as cold as.

Re:100 times colder than what?

[seanadams.com]

Was this moderated Insightful out of irony (I do that all the time when I have the points) or did I miss the joke?

Please do not mod this ironically, because I'm already confused. Thanks.

Re:100 times colder than what?

[SharpFang]

Q: What is the difference between an orange?
A: A banana.

Re:100 times colder than what?

[Markspark]

but it still works quite well, since 1C == 1K

and i really cringed when i read the 100 times colder crap. Seriously, if it's at 0.03 K why not just say that?

Re:100 times colder than what?

[againjj]

but it still works quite well, since 1C == 1K

and i really cringed when i read the 100 times colder crap. Seriously, if it's at 0.03 K why not just say that?

It does not work well. 100x colder than 1 C is not 0.01 C, it is -270.27 C. And the reason people don't say 0.03 K is because the average person does not know what K is, but they know space is very cold.

Re:

[Anonymous Coward]

And the reason people don't say 0.03 K is because the average person does not know what K is [...]

Well then let them become curious and not so average.

Re:

[TrailerTrash]

Joe Sixpack asks, "Would that temperature keep by brewskis cold, or would it freeze them? Because that's a drag when they explode, and I have to call Joe Plumber to fix the freezer (after I clean off the venison steaks left over from last season), and he's crabby about taxes or some such nonsense. Pass me another cold one."

Re:100 times colder than what?

[Mattsson]

One of the reasons the average person does not know what K is, is because they're never expected to know it.

If everyone stopped using Celsius or Fahrenheit in situations where Kelvin would better suited, people would have to actually remember the Kelvin-scale from school-physics or take a minute out of their lives to find out what the Kelvin-scale is.

Re:

[DMUTPeregrine]

Space is very cold, but screaming for ice cream is useless.

Hm...

[Andr T.]

The researchers call the new state of matter 'a quasi-three-dimensional electron crystal.' It was discovered using a device cooled to a temperature about 100 times colder than intergalactic space, following the application of the most powerful continuous magnetic field on Earth.

I don't know why, but I think this will take a while to get to my local PC store.

Oh no you didn't

[yttrstein]

Extend it? I trust you mean CONFIRM IT YET AGAIN!

Thought so.

Re:

[nbert]

Exactly. I just expect the development of new materials to follow Moore's Law. It's the weird hippy cousin of 5 year plans...

Re:Oh no you didn't

[geekoid]

Neither, Moore's law doesn't apply to this..but that would of course require an understanding of Moore's law. The cost of putting more transistors has started going up, thus ending Moore's law.
Unless a fab breakthrough happens. A big one.

Could some other material come up to allow faster processors? you bet, but that wouldn't be Moore's law now, would it?

Re:

[SanityInAnarchy]

The cost of putting more transistors has started going up, thus ending Moore's law.

Only if the price remains constant.

Moore's Law could well continue, as these things get cheaper and cheaper to build, and thus we have more and more cores for the same price.

That wouldn't be the "extension of Moore's law" that lets you ignore the issue of concurrency and just keep throwing more cycles at the problem, but it would be entirely within Moore's law.

Re:

[geekoid]

Really, it's about cost.
And the paper Moores's law comes from is about economics, so no changing to processing is still incorrect.
However, it does neatly deal with multi-cores.

The Fab costs, at this time, for the next round of doubling the transistors is pretty huge.
Whe they ahve to toss 4 out of 5 wafers, the cost to the consumer may become prohibitive. No doubt large orginization will continue upgrading.

From what I've been reading and talking to eopel in the fab industry, we will reach a state where syste

Re:Oh no you didn't

[try_anything]

And what, exactly, would that fab breakthrough look like?

I suspect it would come in pink and look really super with a scarf!

No, it won't

[geekoid]

Moore's law is about manufacturing on silicon
If it isn't silicon, then it isn't Moore's law.
remember kids, increasing processor speed is a by product of Moore's law/ Moore's law is about cost of manufacturing.

Re:No, it won't

[TheRaven64]

No, Moore's law states that the number of transistors you can put on an integrated circuit for a fixed cost doubles every 18 months. This has nothing to do with the speed at which the transistors run or the material they are made from.

But...

[sdsucks]

How cold is that in libraries of congresses?

Re:

[geekoid]

None, becasue as we all know Libraries are HOT!

One more time with feeling!

[geekoid]

None, because as we all know Librarians are HOT!

Could you be any more vague?

[collinstocks]

... "...It was discovered using a device cooled to a temperature about 100 times colder than intergalactic space, following the application of the most powerful continuous magnetic field on Earth."

What does this mean? Give us a temperature. At least that would be concrete.

According to wikipedia, intergalactic space is 2.71 Kelvin. I would assume that they mean "100th the temperature of intergalactic space", not "100 times colder than intergalactic space", as the latter is nonsensical and implies that it exists at 100 times colder than intergalactic space is colder than room temperature, meaning -28834 Kelvin (293 - 100 * (293 - 2.73) where we assume that room temperature is 20 degrees centigrade). T

Re:

[geekoid]

meh.

Re:Could you be any more vague?

[againjj]

According to wikipedia, intergalactic space is 2.71 Kelvin. I would assume that they mean "100th the temperature of intergalactic space", not "100 times colder than intergalactic space", as the latter is nonsensical and implies that it exists at 100 times colder than intergalactic space is colder than room temperature, meaning -28834 Kelvin (293 - 100 * (293 - 2.73) where we assume that room temperature is 20 degrees centigrade). This is nonsense.

I don't see a problem with "100 times colder than intergalactic space". Temperature is an absolute scale, like size. It's like saying that item X is "100 times smaller than a coin". You don't then compare the size of the coin (say, 0.01m) to the room (say 3m) and then complain that item X is not of size -296 (3 - 100 * (3 - 0.01)).

Nonono!

[jd]

They do mean 100 times colder! By being below absolute zero, distances and therefore time becomes negative. With sufficient negativity, they can produce a Pentium that'll give you the wrong answer before you provide it with the data!

Re:Could you be any more vague?

[AstrumPreliator]

So when someone says "X is 100 times larger than Y" you instinctively think "X=100*Y", yet when someone says "X is 100 times smaller than Y" you instinctively think "X=Z-100*(Z-Y)" for some arbitrary Z of same unit as Y. Forgive me for not following your erm... logic.

Let's say I have a temperature which is 100 times larger than 27.1 mK, this would be 2.71 K. Indeed 27.1 mK is smaller than 2.71 K and 2.71 K is larger than 27.1 mK. So saying 100 times smaller than 2.71 K should indicate I mean 27.1 mK. In no way is this nonsensical and I'm pretty sure everyone here understands that "X is N times smaller than Y" means multiply Y by the reciprocal of N, similarly "X is N times larger than Y" means multiply Y by N.

Granted this isn't something you'd see in technical writing, but I'm pretty sure Information Week isn't a technical journal, so why be a pedant about it?

Re:Could you be any more vague?

[Deadstick]

Do any of us have any idea how tall the Statue of Liberty actually is?

Sure...13.95 stories.

rj

So she is good for something!

[CorporateSuit]

was discovered using a device cooled to a temperature about 100 times colder than intergalactic space

My ex-girlfriend?

Longer Article

[againjj]

http://www.sciencedaily.com/releases/2008/10/081021185213.htm [sciencedaily.com]

Re:

[WhiteDragon]

Besides AFAIK the most powerful electromagnets on earth are those used in the LHC.

not even close. The LHC magnets are (according to a quick google search) about 8.3 - 10 T. The magnet lab has a 100T magnet that they routinely run at 85T so it's about 10x more powerful than the LHC magnets.

New transistor, that's nice.

[Chris Burke]

Now gimme mah memristors! [wikipedia.org]

Moore's Law?

[cavePrisoner]

Wait, so somebody discovered a whole new state of matter, and all we have to say is it could extend Moore's Law? I would hope the implications would be just a tad bit more grand for such a discovery than possibly validating somebody's metric for a little while.

Re:

[TapeCutter]

At 0.03K they may be talking about a Bose-Einstien condensate which is a "newish" state of matter.

100 times colder?

[glwtta]

100 times colder than 0 K? So, that's what, 0 K? Why not make it 1000 times colder?

(Yes I know space is slightly warmer than absolute zero, but it's still a really weird claim to make - we are only talking about a couple of degrees here)

Also, am I the only one who, upon hearing "discovered a new state of matter", doesn't immediately think "Sweet, we can extends Moore's Law!", but rather "Holy shit, a new state of matter?" Seems like a pretty big discovering on its own, even without being tied to chip manufacturing...

Re:

[Yarhj]

The average temperature out in space is around 3K. Now, three measly degrees may not seem like a lot, but there's a world of difference between 3K and 0K. I'm sure we would all agree that a temperature of 300K is one-hundred times greater than 3K -- likewise, 0.003K is one hundred times smaller than 3K. There are many exotic physical effects which manifest in the millikelvin regime, but I find it unlikely that you'll be playing Team Fortress 10 on your three-dimensional electron crystal computer. More likel

Re:

[againjj]

100 times colder than 0 K? So, that's what, 0 K? Why not make it 1000 times colder?

100 times colder than 3 K. So, that's what, 0.03 K?

(Yes I know space is slightly warmer than absolute zero, but it's still a really weird claim to make - we are only talking about a couple of degrees here)

If you knew that it was above 0 K, you shouldn't say 0 K. And it is not weird -- these are normal operating temperatures of some really cool physics work. And the reason we talk about 100x vs. 1000x is that the difference between 100x and 1000x is a good chunk of change.

Scenes from the lab

[Repton]

[Scientist 1] A new state of matter! This is AWESOME!

[Scientist 2] Yeah, but it's bloody expensive making the stuff. How can we bring in more funding?

[Scientist 1] Umm ... Something to do with terrorism? Err ...

[Scientist 2] ...energy crisis? Can we do anything with oil? ...

[Scientist 1] ...what about computers? Could you make smaller transistors with this stuff?

[Scientist 2] Yeah, it might fly. Let's run with that.

Re:

[geekoid]

[Scientist 1] What? It doesn't fly

[Scientist 2] What I meant was..

[Scientist 3] But look at it's plumage!
and so on.

Not a new state of matter at all

[brunes69]

From comments in TFA:

The researcher, Dr. Guillaume Gervais, is director of McGill University's Ultra-Low Temperature Condensed Matter Experiment Lab. There's nothing in the journal letter about "a new state of matter". The McGill Newsroom article quotes him as saying to the interviewer, "It's actually not quite 3-D, it's an in-between state, a totally new phenomenon" as compared with the 2-D electron crystals that transistors and IC chips are made of. The interviewer, or an editor, thought "Physics -- state -- new state of matter". Engadget's Melanson picked up the error and passed it on uncritically.

ABout your sig

[geekoid]

I looked it up because it caught my eye.
So they fill a paper cup, then dump it into you travel mug(yeah you) then toss the cup?

Hmm. I understand why they can't use your mug for the creation of the drink, but I wonder why they just don't use a ceramic cup for the preparation.

Another Ice-nine dupe

[xactuary]

We Bokononists prefer to call it Ice-nine. http://en.wikipedia.org/wiki/Bokononism [wikipedia.org]

Why would we want to?

[camperdave]

Why would we want to extend Moore's law? I mean, why merely double the number of transistors every 18 months (or however it goes)? Why not increase the number of transistors by a factor of five, or ten in a single year? It seems stupid to me to limit yourself.

Moore's Law isn't just about silicon any more

[mschuyler]

Since there are already numerous posts invoking the applicability (or not) of Moore's Law, I thought I would start over. Although Gordon Moore certainly formulated his law based on silicon (original is here: http://www.intel.com/technology/mooreslaw/ [intel.com].) it can be applied clear back to 1890 with the Hollerith 'computer' that tabulated the 1890 census. When you graph it out, Moore's Law applies to electro-mechanical switches, then to relays, then to vacuum tubes, then transistors themselves (like in a six transistor radio of the 50's), then on to silicon. It's still the same exponential curve, in five separate states, only the last one of which is silicon. Kurzweil discusses this in depth here: http://www.kurzweilai.net/articles/art0134.html?printable=1 [kurzweilai.net]. People who claim Moore's Law doesn't apply because this isn't traditional silicon acreage are missing the point, which is that not only is Moore's Law more encompassing than the originally envisioned, it is not going away any time soon. The imminent death of Moore's Law, as always, has been greatly exaggerated.

Re:

[ZorbaTHut]

It's almost like Moore didn't think things through. Why, the wood furnace and turbine I need to run my billion-vacuum-tube computer takes up the entire city block!

Extending Moore's law?

[erroneus]

If it doesn't go onto a desktop chip, I am not sure Moore's law is being extended by this theoretical application.

Dumbing Down

[daveime]

You know, we *can* understand Kelvin ... or can we expect the next comparison as "1000 times colder than a polar bear's left testicle".

intergalactic space at 3 K?

[Nick12534]

Intergalactic space is not at 2.7 K. Especially in galaxy clusters, the temperature of the intergalactic medium is often millions of degrees Kelvin. Even in more remote places far from galaxy clusters, it's still much warmer than 2.7 K. The 2.7 K figure is the temperature associated with the cosmic microwave background radiation, not the intergalactic medium.

Name of the new state is...

[marcushnk]

The sub prime state... You can pay for it and sell it but when you look at it hard enough it's not really there...

The problem with "x times colder"...

[gumpish]

Here's the problem... when you say things like "x times SMALLER than" and "x times COLDER than" people think "oh, something TIMES something... I have to multiply."

But with diminishing comparisons (smaller, colder, etc) you're actually multiplying by a decimal, which most people regard as DIVISION.

Worse, when you say something like "100 times colder than" people think not just "I have to multiply" but rather "I have to multiply something by 100".

Let's save everyone a headache and if you want to make a comparison, use the most explicit form possible. In this case, "1/100th the temperature of intergalactic space" (or just give us the damn Kelvins).

To paraphrase an AC's earlier post:

Temperature is a quantity.

"Coldness" is not.

Re:And this helps Moore's Law how?

[noidentity]

Read carefully; they're cooling temperature itself! Not just cooler matter, but cooler temperature. This is a major breakthrough. Before you know it, they'll be able to achieve faster speeds, longer lengths, smaller sizes, and deeper depths.

Re:

[geekoid]

Why? They didn't write it carefully~

Re:And this helps Moore's Law how?

[TrailerTrash]

achieve faster speeds, longer lengths, smaller sizes, and deeper depths.

That's what she said.

Re:And this helps Moore's Law how?

[Alsee]

Well, the faster speeds and smaller sizes part anyway.

-

Re:

[PunkOfLinux]

I believe there's still minute amounts of matter floating in the ether.

Re:

[khallow]

The cosmic microwave background is the electromagnetic energy radiated by the distant reaches of the universe. It corresponds to energy radiated by a roughly 2.7 degrees Kelvin blackbody. That is the temperature of space since under normal conditions nothing can get colder than that temperature.

Re:

[pavon]

Nope, the background microwave radiation prevents an object in even the deepest portions of space from dropping below around 3 Kelvin.

Re:

[geekoid]

Space has no temperature, microwave radiation does.

I can find places in space that are millions of degrees, that doesn't mean space is hot.
Add to that that as the Universe expands, the 'background heat' get's lower.
Energy throughout the universe is constant*, but the volume is increasing.

*or at least among all the universe in the probable dimensions.

Re:100x colder than space?

[pushing-robot]

Obviously you've never been to Montreal.

Re:

[xTantrum]

The laws of Thermodynamics state that we can't really achieve absolute zero [wikipedia.org] As far as the far reaches of space goes they may be referring to the boomerang nebula which is the coldest place we know of so far - outside of the laboratory. I wish the article had been more specific and quantitative. FYI a really good program to watch if you get a chance is Absolute Zero [pbs.org]

Re:

[Nebu]

I might be wrong but isn't the temperature of space absolut zero. How can you get colder than absolut zero? Can someone with knowledge of the subject matter be so kind to explain?

Joke answer: absolute zero divided by one hundred still equals absolute zero.

More serious answer: The temperature is actually around 3 Kelvin, so I guess they got the temperature down to about 0.03K.

Re:

[Mr. Mikey]

Mr. Peabody, and his boy Sherman, used the Wayback Machine.

The 3DBB was used by Phineas J. Whoopee, when he was educating Tennessee Tuxedo and his walrus pal, Chumley.

Look at my ID. I am old... old as dirt! :)

I used to watch these, as well as "The World of Commander McBragg", and the ever-popular Underdog. "The secret compartment of my ring I fill with an Underdog super-vitamin energy pill." The people involved in the supposed live-action remake of Underdog should all be lowered into wood chippers feet firs

Re:

[fishinatree]

Space isn't a complete vacuum. There is still movement and the occasional molecule, but for all practical purposes, it "is" a vacuum. There is still a temperature though.

Re:Colder than Space?

[againjj]

http://en.wikipedia.org/wiki/Vacuum [wikipedia.org]
Intersteller space has a density of a million atoms per cubic meter. Intergalactic space has densities closer to one atom per cubic meter. Perfect vacuum is theoretically impossible due to quantum mechanics (I can not explain why, but that makes sense).

Re:Colder than Space?

[glitch23]

Perfect vacuum is theoretically impossible due to quantum mechanics (I can not explain why, but that makes sense).

For any given particle, you can't know its exact position and velocity. Particles can never reach absolute zero because then you would be able to determine their position since you know their velocity would thus be zero given they have no energy by definition of absolute zero. An extension of that then is if you know a particle's velocity you will never be able to determine its position. If you can't determine its position you can't determine whether it is really outside a vacuum. You may be able to say it isn't in the middle of the volume which represents the vaccum but at the boundary you can't say for sure whether the particle is on the inside of the vacuum or outside. This is Heisenberg's Uncertainty Principle. An absolute zero temperature vacuum is definitely impossible due to the uncertainty principle.

Re:

[bigstrat2003]

An absolute zero temperature vacuum is definitely impossible due to the uncertainty principle.

Well yeah, if you had a brain fart and forgot to turn on the Heisenberg compensators.

Re:Colder than Space?

[Atario]

That took me by surprise. I was sure it was going to be because of the vast number of virtual particles [wikipedia.org] constantly appearing and disappearing within the vacuum.

Obviously

[NotQuiteReal]

Perfect vacuum is theoretically impossible

The relevant law of Nature is: "Nature abhors a vacuum."
And since it is Mother Nature, the relevant reason behind this law is the old Mother's law: "Because I said so".

Re:

[Mr Z]

There are also particles (or rather, particle / anti-particle pairs [wikipedia.org]) popping into and out of existence all the time. In fact, this is often invoked as the source of Hawking radiation [wikipedia.org].

--Joe

Radiant temperature.

[Ungrounded Lightning]

You don't need matter to have a temperature. Even in a "perfect" vacuum (i.e. nothing but quantum fluctuation transient particle-antiparticle pairs) there is still radiant energy in the form of photons - and their wavelength distribution corresponds to a temperature.

It's the temperature at which a black-body test object, bathed continuously in photons of that frequency distribution, would neither warm up nor cool down further.

The radiant temperature of the sky far from the influence of nearby galaxies is known as the "cosmic background temperature". It's about 4 degrees absolute - corresponding to the light from the big bang red-shifted down a LOT by cosmic expansion.

Re:

[Ungrounded Lightning]

It's about 4 degrees absolute... More accurately: about 2.725 +- .002 degrees Kelvin. Also know as the "cosmic microwave background radiation".

Re:

[taustin]

Yes. A few degrees above absolute zero. Which means taht "100 times colder" is, of course, physically impossible, or meaningless.

This is what happens when your science reporter flunked high school science.

Nothing wrong with "100 times colder"

[no reason to be here]

Yes. A few degrees above absolute zero. Which means taht "100 times colder" is, of course, physically impossible, or meaningless.

This is what happens when your science reporter flunked high school science.

The phrase "100 times colder" is commonly understood to mean at a temperature 1/100 of that being compared. Average temperature of outer space is 3 K, so, "100 times colder" would be .03 K. So, the phrasing is perfectly acceptable.

An exercise in relativity

[CorporateSuit]

100 times colder than intergalactic space

Does space even have a temperature?

Well, if I remember correctly from winters in elementary school:
Space's temperature, according to my 1st grade teacher, is "Really cold"...

If I remember correctly from winters in elementary school:
"Super Cold" is about 2 times colder than "Really Cold"
"F*cking cold" is about 10 times colder than "Really Cold"
"FREEZING" is about 5 times colder than "Cold"
So 100 times colder than intergalactice space would be "Super F*cking FREEZING!" (said while shivering for effect)

Re:

[zippthorne]

The way temperature is defined: yes.

Stick a thermometer in it. Read the number off. Now, granted, this is mostly due to rad exchange, but it still satisfies the thermodynamic definition.*

*if you've got a perfectly gray thermometer.

Re:

[SimonBelmont]

Actually I would assume that they mean 1/100 the temperature of space, on an absolute zero based scale.

Re:Is that really cold?

[CorporateSuit]

4.73 Kelvin

Pffft barely jacket weather.

Tell me when it's below 3.8 Kelvin. THEN I might be impressed.

Re:It came from...

[James_Duncan8181]

Lucky, outer space certainly seems like the only place to cheaply get that amount of cooling.

Re:It came from...

[Kagura]

... a device cooled to a temperature about 100 times colder than intergalactic space, following the application of the most powerful continuous magnetic field on Earth."

Hmmm... this is definitely going to extend Moore's Law in home computing... sure. ;)

Re:It came from...

[Moryath]

Moore's law... hell this is going to extend the calculation of the user's home heating/cooling costs past what will fit on a single page.

On the upside, calculating that kind of cost may lead to the finding of a new prime number or two.

Re:

[durnurd]

Just to make sure everybody knows: The necessary magnetic field and temperature applications are required only during the creation of the crystals.

Re:

[Urkki]

Does space even have a temperature? Vacuum insulates rather well and the biggest problem of many space-born devices (think ISS) is getting rid of excess heat. The famous Star Trek line of "It's very cold in space" doesn't really match the reality.

There's the redshifted afterglow of the original Big Bang "fireball", also known as the cosmic microwave background radiation [wikipedia.org]. It's equal to heat radiation of an object at about 3K. If you make something colder than that and throw it into intergalactic space, it'll heat up to that temperature. If something is warmer than that, and there's no heating, then it'll cool down to that temperature. So I'd say space *is* cold.

Closest example of a place that always experiences almost the true temperature of spac