Discovery of a "Flat" Atom Hailed as Quantum Computing Breakthrough

msw writes to tell us that nanoelectronics researchers have discovered a new molecule that could act as a state-manipulable atom due to its unique shape and properties. "Imagine a tiny arsenic atom embedded in a tiny strip of silicon atoms. An electric current is applied. Something strange arises on the surface -- an exotic molecule. On one end is the spherical submerged arsenic atom; on the other end is an 'artificial' flat atom, seemingly 2D, created as an artifact. The pair form an exotic molecule, which has a shared electron, which can be manipulated to be at either end, or in an intermediate quantum state."

Quick !! Couple the quantum inverters !!!

[unity100]

and unleash them on the flux capacitor !!! we are getting into quantum artifact business.

Re:How dare you sir !!!

[unity100]

and those subjects you mentioned are fictional devices from a bad 1980s movie and therefore, Offtopic.

wow.

you are sure you are in the right website ? you surely dont fit well with the demographic here. i would rather chop my own balls than call Back to the Future a bad movie in slashdot.

Quantum State

[Pictish Prince]

Don't you mean indeterminate quantum state? The electron can't be in an intermediate state since there are only two possible states.

Re:Quantum State

[Romancer]

He meant to say interdeterminatable.

Re:Quantum State

[Linker3000]

Yes, the electron has been interdeterminaterized

Re:Quantum State

[colinbrash]

Of course, to get it back you are going to need a disinterdeterminaterizer.

Re:

[Fluffeh]

At that point you can say this to the electron:

You have been eaten by a grue.
You die.

Re:

[TractorBarry]

Well don't just sit there gawping, make it redeuninterdeterminaterized right this minute or there's no supper for you.

Re:Quantum State

[Gat0r30y]

qubits have 3 possible states 1 0 and indeterminate. Thus it is a breakthrough in quantum computing and not just regular computing. The indeterminate state is defined as a superposition of the two other states. And indeed it is a real, though not particularly well defined state for the electron to be in.

Re:

[morgan_greywolf]

I propose that we rename "indeterminate state" to "undead cat state", just because it sounds cooler and (sorta) makes sense.

Re:

[Macka]

I'm guessing the moron who modded you Offtopic has never heard of Schrodinger's Cat [wikipedia.org]

yes, no, duh

[EmbeddedJanitor]

How is indeterminate different from unknown?

In any analog system without hysteresis, and thus many digital systems too, you go through an unknown state as you transition from low to high.

IIRC, which I probably don't, quantum computing's indeterminate state is a bit more than just "unknown". It allows the calculation to be done with essentially "wildcard bits" that, when resolved magically give us the answer. THis essentially allows multiple parallel calculations. Unknown does not give us that.

Re:Quantum State

[sfazzio]

qubits have 3 possible states 1 0 and indeterminate.

Not true! Qubits have an infinite number of possible states. Imagine that your classical bit is represented as either an arrow pointing up for 1 and an arrow pointing down as -1. A quantum bit is like an arrow that can be pointed in the up direction, the down direction, or any other direction (it basically constrained to the surface of a sphere).

Re:

[Gilmoure]

You and yur durn chaos gods...

Re:

[glittalogik]

"that -1 should have been a 0. Sorry."

I get the feeling quantum computers are going to have to say that a lot.

Re:

[mdmkolbe]

Technically it has only two states (0 and 1) but is always in a superposition of the available states. Different superpositions have different mixes of the two states ranging from "pure" superpositions with only 0 or 1 in them to mixed states with equal amounts of 0 and 1 and everything in between.

(Even this doesn't tell the whole story because there are constraints on how the states can mix (the sum of their squares must be unit) and we also can have "negative" amounts of states (only indirectly observ

Re:Quantum State

[sfazzio]

Your terminology is slightly off. Qubits can have an infinite number of possible states. 0 and 1 are called the basis. Also, a qubit is considered to be in a "pure state", not only when it's in a basis state, but also if it is in a superposition of the bases. A mixed state is something completely different. It occurs when we don't know exactly what pure state, so the state is represented by the sum of the possible pure states weighted by the probability of the qubit being in that state. http://www.quantiki.org/wiki/index.php/Mixed_state [quantiki.org]

Re:

[Gilmoure]

Maybe?

Re:

[TheThiefMaster]

Quantum computing is statistical, it doesn't really have states at all.
A quantum bit (qbit) has an X% chance of being 1 and Y% chance of being 0. Depending on the value of X, the bit could be a guaranteed 1 or 0, or could be randomly one or the other.

Even more confusingly, the probability of a quantum bit is actually a squared complex number, with the complex number (unsquared) being used in calculations. The (squared) numbers have to total 1.0, but the unsquared numbers can have negative terms. This doesn'

Re:

[Emb3rz]

Quantum Computing is going to seriously mess with those who worked so hard to accept that (1 OR 0) = 1.

Re:

[camperdave]

Quantum Computing is going to seriously mess with those who worked so hard to accept that (1 OR 0) = 1.

The people it will really mess with those who worked so hard to accept that NOT(0)=1 and NOT(1)=0.

Re:

[K. S. Kyosuke]

Three-state outputs are not unique to CMOS. TTLs had them, too. (74245, anyone?) But even then, this is something totally different.

Re:

[glittalogik]

Only if you want to start talking about hard drive capacity in Megaschits.

Re:

[sm62704]

Don't you mean indeterminate quantum state?

Well, that's indeterminate... [angryflower.com]

Re:

[cmat]

I think he meant "unconceivable" state.

Re:

[tyrione]

I think he meant "unconceivable" state.

Are you sure you don't want to say, inconceivable or are you worried a certain swordsman will challenge you on the overuse of that word?

What do they mean by an "atom"?

[argent]

I suspect that they mean some kind of artifact that behaves like an atom for certain useful purposes, but without explaining what that artifact is and what makes it behave like an atom they're not actually explaining anything.

Re:What do they mean by an "atom"?

[snowgirl]

Yeah, the title of this should be "found a flat 'atom'" which should be in quotes, not the "flat" part.

The artifact is definitely flat, but the "atom" is a virtual one. Much like an atom of Positronium, where an electron is circling around a positron (anti-electron). Positronium acts chemically exactly like Hydrogen, because chemistry is based on the electron shell, not the actual atom inside (the different elements are all distinguished by how many electrons they have in orbit, as well how much or little they want to keep electrons.)

So, this "atom" that they're referring to doesn't actually exist as a "physical" object, but rather it's an artifact as you mentioned, and if an electron were to just kind of oddly orbit around an empty space, chemically, it's a hydrogen atom.

Re:What do they mean by an "atom"?

[argent]

Ah, now it makes more sense.

And now for something completely different...

And to demonstrate that there is nothing so weird that the quacks won't latch onto it, when I googled on Positronium I discovered that someone is claiming that they have a homeopathic remedy created from the decay of Positronium.

http://www.hominf.org/posi/posifr.htm [hominf.org]

Such gems as Since positronium is made up of both particle and anti-particle, it assumes a position mid way between matter and anti-matter. When it decays, it is converted into a pulse of pure energy. This threefold state has been picked up by a number of provers for whom the number 3 was prevalent in dreams and waking experiences. It also provides a convenient way to arrange and "map" (to see the map, a visual representation of the remedy, click here) the symptoms and themes of the proving, as we shall see later.

Holy mother of Mendeleev, what a load of collywobbles.

Re:

[snowgirl]

Jesus! Where is this guy even GETTING positronium.

According to Wikipedia, Positronium has three different lifetimes depending upon how the positron is compared to the atom. Either picoseconds, or at best, they think about 1.1 millisecond.

Unless this guy is making his positronium _IN_ the water... hell, it won't even MAKE it to the proving phase where you bang it...

Not to mention positrons are extremely expensive... we've spent millions if not billions of dollars on anti-mater, and we've made maybe a gram

Re:

[glittalogik]

hell, it won't even MAKE it to the proving phase where you bang it...

That's what SHE said!

Your mom, I mean. But she was wrong. Zing!

Re:

[snowgirl]

hell, it won't even MAKE it to the proving phase where you bang it...

That's what SHE said!

Your mom, I mean. But she was wrong. Zing!

Yes.... yes, it is what I said.

Re:

[snowgirl]

An anti-proton and an electron have similar charges... negative. Thus they repulse each other and cannot come together as an atom, as the electromagnetic forces repulse.

Positronium is an analog of Hydrogen, just since the mass is smaller, the spectral bars from it are in a different location.

Still... the question is, where is this homeopath making positronium?

Re:

[riceboy50]

Still... the question is, where is this homeopath making positronium?

I can't decide whether you're serious or not. The normal rules of science obviously do not apply to homeopathy. Behold my home-brewed Positronium [jupiterimages.com]! Now enhanced with awesomeness!

Re:

[snowgirl]

Still... the question is, where is this homeopath making positronium?

I can't decide whether you're serious or not.

Yes.

Where to get homeopathic positronium. :)

[argent]

If you read the article I linked to, he describes getting a positron emitter and apparently even verifying the characteristic gamma rays from annihilations, exposing a vial of water to it, and reasoning that this produced homeopathically significant quantities of positronium in the process.

Given that "homeopathically significant quantities" includes "none", he's not even wrong about that. Not that it's useful information, mind you.

I'm almost inspired to write up a hoax article about creating homeopathically

Re:

[pushing-robot]

positronium...number 3 was prevalent in dreams and waking experiences.

That was a pretty good episode.

Re:

[ceoyoyo]

Positronium is a real atom. It behaves just like hydrogen (almost) chemically, but it is a real atom.

This thing is not... it seems to be more akin to your electron circling nothing example.

Re:

[snowgirl]

Positronium acts chemically exactly like Hydrogen, because chemistry is based on the electron shell, not the actual atom inside (the different elements are all distinguished by how many electrons they have in orbit, as well how much or little they want to keep electrons.)

The different elements are all distinguished by the number of PROTONS in the nucleus of an atom. This is one of the most basic concepts in chemistry, and is the basis for the periodic table.

Additionally, the differences between hydrogen and deuterium (hydrogen with an extra neutron) can have significant effects on their reactivity. For example, if you drank nothing but D2O instead of H2O, you would die because of their differing physical properties.

http://en.wikipedia.org/wiki/Heavy_water [wikipedia.org]

"Mammals such as rats given heavy water to drink die after a week, at a time when their body water approaches about 50% deuteration."

A 50% body water weight of deuterium is hardly a significant LD50.

The number of PROTONS in a substance most greatly effects the number of ELECTRONS that the substance will have. Chemically, the ELECTRONS are the acting agents... Nuclear physics deals with properties of atoms at the nucleus. Chemistry only deals with the number of electrons (or more rather, the specific attra

Re:

[snowgirl]

Rereading your comment:

The new molecule was first discovered by Sven Rogge and his colleagues at Delft University of Technology in the Netherlands. His team was experimenting on impurities in nano-scale transistors. They found that a single atom was transporting electrons, but could not find the impurity responsible. It turned out it was not an impurity, but a synthetic atom with an unknown proton/neutron character, created by the electrical current. The exotic atom was flat and formed a molecule with a

Re:

[argent]

So what does "a synthetic atom with an unknown proton/neutron character" mean?

Re:What do they mean by an "atom"?

[snowgirl]

It means that chemically, there is an "atom" there, but that no one knows what is actually in the nucleus, or trapping the electron at all. Something is, but no one knows what is in there. Likely, nothing... it's the magnetic field making the electron act like there's an atom there.

Still, this is way cool... imaginary matter!

Re:

[mapsjanhere]

yes, but does it have a +i or -i spin?

Re:

[misterhypno]

It's an artifact, alright - it's the dreaded +2 Atom of Confusion!

"Tiny Arsenic Atom" ??

[anandamide]

Is there a big variety I'm unaware of?

The article is exiting gibberish

[bornwaysouth]

Can someone on slashdot please make sense of the article. It claims
1. That quantum computing needs vastly fewer bits to represent data. I thought it dealt with multiple possibilities simultaneously, but that the final reality just needed small number of bits. (Ideal for encryption cracking. Crap for storing a database)
2. That a synthetic atom was created. OK. I used to be a chemist. A new non-peridic table atom is heresy to me. But that extraordinary claim seemed to be nothing more than an odd electrical state, acting as if an unknown atom was present.
3. A molecule was created. Covalent bonds and the like. Except that it seemed to be an arsenic atom buried in a matrix. Not a separate molecule at all.
4. That faster than light communication is possible. I thought that collapsing entanglement does appear to happen faster than light, but that no information transfer happens. Mind you, that's my memory of my take on a New Scientist comment some time back. My brain has its share of garbage. Compost help ideas grow. ;-)

I suspect there is great science here being reported as little more than magic.

Re:

[thatskinnyguy]

I don't know much about the other three, but #1 can be answered easily. Imagine instead of having ones and zeros, having zeros, ones and twos given that cubits have three states. With the third state, more can be said with the same amount of bits as a binary on/off state.

Re:The article is exiting gibberish

[mea37]

Imagine that if you want, but it isn't how it works.

A quantum bit can actually be in many different states; any weighted superposition of the 0 state and the 1 state, in fact. But you can't look at it and say "ah, right now it's in an indeterminate state"; when you read it, it collapses to either the 0 state or the 1 state. Its state prior to observation only determines the odds that you'll see the 0 state vs. the 1 state when you read it; you can only read it as being in one or the other.

Re:

[kalirion]

I thought that collapsing entanglement does appear to happen faster than light, but that no information transfer happens.

You can't find out what the state was before the collapse, but you could conceivably find out that the collapse happened (the behavior becomes that of a particle instead of an element).

Re:

[ceoyoyo]

That's not how it works. You can't measure an indeterminate state. I'm not even sure what you mean by "element."

If I've got some sets of pair entangled particles and I give you one half of each pair, then I manipulate my set and you measure your set, if we compare notes we'll find out that our measurements agree with each other (actually, in most cases they disagree perfectly, but that's just a detail).

The catch is that you can only observe the effect after we get together and compare notes. You can only

Re:

[kalirion]

Consider a stream of entangled particles is shot in different direction, with each particle in one stream having an entangled partner in the other. At both ends there's one of those double-slit setups. If setup correctly, and the particles aren't interfered with, they will form diffusion patterns. If a measurement device is switched at the end of one stream (before the slits), the interference pattern will disappear at both ends. At least that's the theory. There was a slashdot article about an experim

Re:

[kalirion]

This is what I was talking about [slashdot.org]

Re:

[ceoyoyo]

It doesn't work that way. I can't remember the exact details, but the interference pattern doesn't just disappear. Remember, an interference pattern is built up from a large number of particle impacts. It's a statistical process. The interference pattern only disappears when you later look back and sift through the data using information about the measurements the other experimenter did. The experiment has been done, and there's a good description in this [amazon.com] book.

The rules are weird, but pretty airtight.

Re:

[kalirion]

Yes, I read The Fabric of Cosmos. And that's what actually gave me the idea before I ever heard of John Cramer's planned experiment. Remember Greene's example of an experimental setup which specifically stated that if you measure the entangled stream, it would cause the interference pattern to disappear in the original stream. It seems obvious that this can be used for communication. As you said, measuring a single photon would not be enough - a pattern needs many "dots". But if you switch the device o

Re:

[mdmkolbe]

you could conceivably find out that the collapse happened (the behavior becomes that of a particle instead of an element

I assume you mean "wave" instead of "element". If so, your statement is incorrect. It is impossible to pass any information (including whether the other guy looked at his half of the pair) via quantum entanglement.

Re:

[kalirion]

I assume you mean "wave" instead of "element". If so, your statement is incorrect. It is impossible to pass any information (including whether the other guy looked at his half of the pair) via quantum entanglement.

Yes, I did mean "wave". I really should start previewing my posts :)

And see my other post for a way that might just work.

Re:

[mdmkolbe]

I looked at your other post, but have been unable to find any confirmation one way or the other of how such an experiment would turn out. It seems like the Quantum Eraser (for which experiments have already been completed) would be sufficient for FTL communication, but I can't find any reference that explains whether or not that would work (which makes me think there must be an "obvious" reason why it wouldn't that they all forget to mention).

I must confess that these ideas sound plausible, but on the f

Re:

[kalirion]

Well a University of Washington physicist [washington.edu] certainly thinks it's worth an experiment.

Wil McCarthy's Wellstone...

[argent]

Wil McCarthy insists that his Wellstone... an artificial state of matter (or something of that nature) involving a grid of pseudo-atoms... isn't entirely science fiction.

The Wellstone
The Collapsium
Lost in Transition
To Crush the Moon

Warning: I haven't been able to bring myself to read the final book in this series, the previous books have set it up as a serious downer and I've already got enough stress in my life as it is.

and 640k should be enough for everyone

[Wizworm]

Delft's Rogge, the first of the discoverers stated, "Our experiment made us realize that industrial electronic devices have now reached the level where we can study and manipulate the state of a single atom. This is the ultimate limit, you cannot get smaller than that."

I, for one...

[dwiget001]

am tired of these flat molecules. I want the largest, firmest and the most ample molecules that I can get my hands on...

Wait... was thinking of something else. Never mind.

Image wha?

[Temujin_12]

Imagine a tiny arsenic atom embedded in a tiny strip of silicon atoms.

Me: ??? <blink, blink>

Happy Accident

[HTH NE1]

from the breakthroughs-by-mistake dept.

There's a word for that, just on the tip of my mind, meaning happy accident... ah yes: schadenfreude.

Re:

[ceoyoyo]

Serendipity means an accidental discovery. Schadenfreude means taking pleasure from the misfortune of others.

Yeah sure...

[tinkerton]

Rub it in!

Re:

[HTH NE1]

Perhaps you're thinking of serendipity? Schadenfreude only applies to sadists.

Well, the border between serendipity and Schadenfreude can be very narrow. For example:

Leslie Arzt: Did you hear about the guy who invented nitroglycerin? He blew his freakin' face off! His lab assistant came in the next morning, found his boss' body, and said, "Huh. I guess this stuff works."

For that lab assistant, it would be both. (That is, if the story were true. In fact, Ascanio Sobrero and Théophile-Jules Pelouze both survived the discovery of nitroglycerin.)

For the viewers of Lost at the shortly-to-follow ironic death of Arzt, it's just schadenfreude.

(Anyway, my mixing up serendipity and schadenfreude was deliberate and intended as a joke. It kills with Mensans.)

I sense an SGI-I thought coming on...

[tyrione]

...ah the possibilities.

FTF Summary

[aztektum]

All I was able to grasp was

Imagine ...

Reading everything after caused my brain to spin into the guard rail.

and from this flat atom was born a new element...

[ThatsNotFunny]

...Keiraknightlium

Not sure, but sounds tasty

[azzuth]

Next time you think about putting your new quantum motherboard in your mouth think again.

Re:Sure

[Romancer]

Uh, two points:

1. There already exists an issue with the amount of toxic chemicals in most computers today.
http://maine.gov/dep/rwm/recycle/computerrecy.htm [maine.gov]
"A typical processor and monitor contain five to eight pounds of lead and heavy metals such as cadmium, mercury and arsenic."

2. When you are dealing with quantum levels a gram of any element has a lot of area to work in and they are suspending the toxic bit with a field of silicon.
"Imagine a tiny arsenic atom embedded in a tiny strip of silicon atoms..."

Re:Sure

[geekwithsoul]

"typical monitor" when this was written was a CRT. I'd hardly call a CRT a "typical" purchase for anyone anymore. I got rid of my last one four years ago, and I'm not even sure I know anyone who still has one. Hell, most non-gamers I know don't even own a desktop PC. I'm not saying there aren't still hazardous materials in today's PC, I'm just saying its a hell of a lot less than "five to eight pounds."

Re:

[Romancer]

So since I work in the office support industry I can attest to seeing way more CRTs than LCDs in use by the cubicle users. I has been getting much better but they're still out there and in use, and for sale at best buy and pc connection type stores. CDW sells them online and in catalog. They have a 15" viewsonic for 129.00 in stock even.

The point I was making was that the hardware out there has had toxic chemicals inside for quite a while and probably in greater quantities than we can expect from quantum ma

Re:

[digitrev]

Umm...lots of people still use CRTs. Old ones (because older = cheaper), and students on a budget who can't afford a better monitor. Just because you don't use a CRT doesn't mean there aren't a lot of people who use CRTs.

Re:

[LordVader717]

OK, I'll give you the argument with using old monitors, but if you were to buy a new monitor, LCDs are the only real choice. On average CRTs sold today are probably more expensive than the LCDs, as they're mostly used for high-performance tasks.
So yeah, this isn't really a problem for new computers anymore.

Re:

[zokum]

I use 2 Eizo CRTs, 21" F930. Despite their age, they're great. LCDs only really look nice in one resolution, for everything else it's a blurfest. If one uses a lot of different resolutions and do graphics work, CRT is the way to go. And in general I love the fact that i can run a game at 160Hz refresh rate and 0.1ms response time on ALL colors. LCD still has a lot of catching up to do imo, but for normal one-resolution office work, lcd is the way to go. For my main setup I use 2x1600*1200 @100Hz, and for

Re:

[MBGMorden]

The argument he was making was that it was not the TYPICAL monitor anymore, and it is not. Yes, a lot of people do still use them, but they are now a (shrinking) minority of users. All new monitors I see coming in to offices are LCD, virtually all home purchases are now LCD, and even in your "student on a budget" scenario, many colleges are now REQUIRING laptops for all incoming students (so that they can be used to submit assignments in class), and a desktop is not an acceptable substitute.

So yes, there

Re:

[Henneshoe]

With RoHS firmly in place, there is no lead in the solder of almost any circuit board built post 2006.

Re:Sure

[Brigadier]

There is nothing wrong with using toxic substances. The problem is how you process it, and recycle or dispose of it. I'm sure the car you drive to work has a serious amount of Toxins. We only need to be sure that we allow a proper reclaim process.

A good example is the lead acid battery in your car. You get charged $5 for every new battery that you buy if you don't recycle the old one.

Re:

[nospam007]

>There is nothing wrong with using toxic substances...

Yep, it's even in the tapwater you drink, use to cook and wash and brush your teeth.

http://www.organicconsumers.org/corp/arsenic.cfm [organicconsumers.org]

Re:

[Gilmoure]

All those hippy potters, happily throwing salt onto their ceramic bongs and beer mugs, getting that cool sodium glaze, allowing all the freed chlorine up into the sky...

Re:Mod grandparent 'troll', not 'insightful'

[treeves]

Half NaCl, half KCl, IIRC.
Too much potassium can be bad for you though, so you shouldn't dump a lot of it on your fries either.

Youngsters

[ciaohound]

Back in my day, the President of the United States declared that arsenic counted as a vegetable in our school lunches, and although we didn't much like the taste, we all did our part to defeat the commies and make the world free. And this is the thanks the next generation has for us -- gettin' all uppity about using it in computers. Sheesh!

Re:

[sm62704]

Ever drive through Missouri? If so, ever smell almonds? Well, afaik there are no almond trees in Misouri. That's pesticide you smell - arsenic.

TFA and TFS are referring to incredibly tiny amounts of arsenic, not large quantities, and they would be actually be inside the chips. I can't see how they would pose a danger to anyone.

Um, your comment was pretty ignorant but it was on topic, have the mods been smoking arsenic?

Re:

[burtosis]

and they would be actually be inside the chips. I can't see how they would pose a danger to anyone.

Puts away salsa

What?

Re:

[Anonymous Coward]

I thought it was cyanide that smells like almonds. Does arsenic even have a smell?

Re:Sure

[tattood]

You are correct. Cyanide smells like Almonds. Arsenic, when heated, smells like Garlic. At least, according to wikipedia...

Re:

[amRadioHed]

Damn, all this talk about poisons is making me hungry.

Re:

[Anonymous Coward]

Ignorant like he who ignores that cyanide is the poison with the almond flavor and that arsenic is a metalloid element of the Periodic Table? That must be some really ignorant person.

Re:Sure

[Jesus_666]

Let's see... We have one arsenic atom per bit. Let's assume a one (decimal) megabit quantum storage unit. That means one million arsenic atoms.

Arsenic has a nuclear mass of about 74.92159 u with one u being about 1.660538782 * 10^(27) kg.
Google tells us that 74921590 u = 1.24410212 * 10^(-10) micrograms (0.000000000124410212 ug). Note that you already eat several ug of arsenic a day [informaworld.com], so eating your megabit quantum storage chip is unlikely to give you arsenic poisoning. That is not what you should worry about at that moment.

Re:

[Volante3192]

Sadly, these flat atoms will never get the attention that more endowed atoms get on a regular basis.

Re:

[Applekid]

It's hard to be a clown on this one, I'm afraid. Maybe jokes about non-flat atoms that just sit around all day collecting welfare checks shooting off neutrons, or how this flat atom doesn't have any boyfriends because she's so flat. Maybe go the route where "flat" rhymes with "fat" and talk about Fat Atombert. Hey hey hey!

Re:

[Hoi Polloi]

Thank goodness they finally have flat atoms. All of those bumpy atoms were starting to annoy me.

Re:

[glittalogik]

Come on dude, I've already got a "your mom" joke out of this. You're not even trying!

b atom -- # atom?

[Jesus_666]

The real question is: Now that we can create flat atoms, can we also create sharp atoms? And can we use them to create chords? This is some serious stuff; maybe this is the first time in history we can create detectable amounts of the theoretical F sharp minor matter.

Re:

[techno-vampire]

"Imagine a beowulf cluster of those..."

Yes, but does it run Linux?

Re:

[SimonGhent]

"Imagine a beowulf cluster of those..."

Yes, but does it run Linux?

The real question is, will it blend?

Re:

[mapsjanhere]

of course: infinity^2infinity^3

Re:

[Jesus_666]

Great. Surveillance at the electron level. Big Brother has his eyes everywhere...

Re:

[Chemicalscum]

Quantum theory has never been wrong yet and it has been tested at an incredibly precise level. I would be willing to bet that if there is anything wrong with this it either experimental or their interpretation of the theory.