Diamonds As Room-Temperature Superconductors 318
Stormalong writes "This article describes research into using diamonds as room-temperature superconductors. If successful, perhaps one day you could give your love a diamond engagement CPU instead of a ring!"
Hmm. (Score:5, Funny)
If true, will it be relevant? (Score:5, Interesting)
into it yet because their results have yet to be independently
verified. He also hasn't even shown it can "expel mangetic
fields to conclusivlely prove that the state is
superconducting."
At least the heading of the article was posted with a question
mark, rather than as an authoritative claim.
If the claim proves to be true, it would be interesting to see
what practical application it can be put to. Will the fact that
it could be a replacement for "hot" cathodes in TV tubes even be
relevant by the time this technology is ready for practical
application. With some of the other new technologies that are
on the horizon such as OLED's, it will be interesting to see
what the life span of the bulky CRT will be.
Re:If true, will it be relevant? (Score:5, Interesting)
I Am Not A Physicist, but this point makes me especially skeptical. Isn't this test (showing that a magnetic field is perfectly cancelled out within the semiconductor) relatively easy to conduct? Wouldn't the researcher have performed this test before making any claims?
The only thing I can figure is that the hardness and cost of diamond makes it difficult to get a specimen that has the correct topology for the test...
Re:If true, will it be relevant? (Score:3, Informative)
I got this from one sentance: Current continues to flow from the diamond cathode through this layer to the anode, even though there is no voltage across the layer - a sign of superconductivity.
Engagement? (Score:4, Funny)
You forget that most /.'ers associate "engagement" with a Counterstrike session ...
Re:Engagement? (Score:5, Funny)
You forget that most /.'ers associate "engagement" with a Counterstrike session ...
And with good reason. Did you actually believe that marriage was any different? ;)
Re:Engagement? (Score:2, Funny)
Then there are the ones that start an argument and do their best to make sure you can't defuse it.
Then there are the accusations from no where that hit you like a headshot.
And of course if you lose you get kicked out; and only then you can see the situation from a better perspective after it is too late to do anything about it.
Diamonds as CPUs (Score:5, Funny)
Re:Diamonds as CPUs (Score:5, Insightful)
Eh....
Diamonds aren't forever, they are only a metastable state.
Besides, "A Diamond is Forever" is a DeBeers marketing sloagan created in the 1920s, not some ancient piece of wisdom.
Re:Diamonds as CPUs (Score:5, Insightful)
-hero.
Not really (Score:2)
Re:Diamonds as CPUs (Score:2)
rare==expensive==show off==beautiful.
and as said artificial diamonds are so cheap that theres not much point using real natural diamonds for industrial purposes, the only point why they're expensive is that people are ready to pay for them, like any other collectibles really (famous painting originals, pearls & all)...
Re:Diamonds as CPUs (Score:3, Insightful)
The artificial diamond makers will then try to pull a "deBeers" on the mrket - which may cause real ones to either drop or rise in price..
DeBeers cartel will either shorten suply of real ones in order to raise price. If there is a huge flood of artificial diamonds it would cause the already super abundant diamonds to seem more rare.
Another angle might be attem
Re:Diamonds as CPUs (Score:5, Insightful)
"de Beers" was able to pull a "de Beers" because the diamond deposits were geographically localized. Artificial diamonds can be produced anywhere. If demand surges, entrepreneurs will fill the supply void and prices will be kept low.
Re:Diamonds as CPUs (Score:4, Insightful)
They will want to drive the price up as far as they can jsut like DeBeers did
This is the goal of every for-profit business. You know why restaurants don't create an artificial shortage of toothpicks and charge you $10 for a wooden implement to clean USDA Prime T-Bone from your teeth? Because unlike De Beers, they have competition.
People believed in mass scale collusion between corporate players in the early 90's when there was a sudden spike in the demand for RAM and the price soared. I still have $33 1 Megabyte SIMMs I bought in the early 90's. After seeing the thirst the public had for SIMMs and the fact they'd pay outrageous prices for them, the market was ripe for an extended "shortage of supply". The existing companies probably tried to play this card... but anybody with enough capital to build a fab in malaysia could start pumping out RAM chips on the cheap. And if they wanted to make money as an unknown brand, they would have to sell their product substantially cheaper than the competition so that the public would accept the risk of an unknown manufacturer. This is exactly what they did... they undercut the big manufacturers... the result... 128MB DIMMs are listed at $16 today on pricewatch... one two hundred fiftieth the cost per meg they were 10 years ago...
What does this have to do with artificial diamonds? Simple, if the demand is high and so is the price, anybody with enough capital to build a fab in malaysia can start producing them cheap.
The RAM chip industry had eager investors and unscrupulous businessmen. Didn't make much difference. Capitalism... it isn't just a neat economic theory. All around you are examples of market demand driving competition and competition driving prices.
The whole argument about diamond deposits being geographically localized is debatable in that there seems to be evidence that diamonds are much more widely available and common than reported
If you know somewhere where there are large deposits of gem quality diamonds... WHY ARE YOU POSTING ON
Re:Diamonds as CPUs (Score:4, Interesting)
I am really lucky
Only on slashdot would people talk about giving engagement cpu's.....
Re:Diamonds as CPUs (Score:3, Informative)
Me too. I managed to talk my wife out of getting a diamond on ethical grounds. We went with moissanite [moissanite.com] instead. Her ring has a green moissanite flanked by two clear moissanite stones.
The funny thing about clear moissanite is that people refuse to believe it is not diamond, even when they are told directly. Moissanite actually has a higher index of refraction than diamond, and so it sparkles more! Plus, moissanite only costs one tenth as much as an equivelant quality diamond. Most
Re:Diamonds as CPUs (Score:3, Funny)
Does that mean you gave here a tin ring?
Re:Diamonds as CPUs (Score:3, Informative)
AFAIK, man-made diamonds are never good enough for jewelery and are alwasys considered industrial grade.
On top of that, most of the price of diamond jewelery comes not necessarily from the stone but the skill that went into crafting it. The person shaping the stone ha
Re:Not for long... (Score:4, Informative)
1) Man-made gem-stone quality diamonds are generally too perfect.
2) These diamonds generally have non-natural coloring. Some are actually artificially colored (sky blue diamonds anyone?)
3) These diamonds fluorese under UV "Black" light.
As I understand it, one of the big goals for these guys (besides breaking the DeBeers distribution barrier) is to make the diamonds as 'real' as possible. So, they are working on ways to introduce flaws and color variations into the stones. I got the feeling from the program, they aren't that far away from their goal of manufacturing a 'natural' diamond.
DeBeers is so worried about the whole situation they are now micro-etching the DeBeers logo onto all their diamonds. This essentially means that anyone who buys a DeBeers natural diamond will be paying a premium for... a corporate logo.
DeBeers is aparently trying to become Nike.
I.V.
Not entirely stupid... (Score:4, Insightful)
For completeness, the exact same comment applies to men who buy Rolexes...
Re:Diamonds as CPUs (Score:5, Interesting)
The original article [theatlantic.com] is quite a good read about the diamond industry and how *not pricy* actual diamonds really are. The true price seems to be paid in marketing, inflated costs, monopoly of the industry, and exploitation of indiginous people. Hell, you can make diamonds from the ashes [thebostonchannel.com] of your dead greatgrandmother!
Re:Diamonds as CPUs (Score:2, Interesting)
Anyways, it's worth noting that the DeBeers monopoly got a huge kick in the kiwis a couple years ago when a small (for the industry) startup beat them to the disco
Re:Diamonds as CPUs (Score:3, Insightful)
Re:Diamonds as CPUs (Score:5, Funny)
Besides, "A Diamond is Forever" is a DeBeers marketing sloagan created in the 1920s, not some ancient piece of wisdom.
DeBeers has recognized that it needs to market more effectively to the Slashdot crowd, many of whom have yet to make a substantial investment in a diamond.
Their new slogan will be
Loved One (Score:3, Funny)
Don't you mean "one day your loved one might BE a diamond CPU"?
Re:Loved One (Score:2, Redundant)
That line takes on an whole new meaning if you remember this [slashdot.org] story
let go!!!!! (Score:2)
If successful, perhaps one day you could give your love a diamond engagement CPU instead of a ring!
Arghh!!! paradox!!! get it off, get it off!!!
Re:let go!!!!! (Score:2)
Diamond prices (Score:2)
Re:Diamond prices (Score:2)
Re:Diamond prices (Score:2)
Long story short, the technology to create non-industrial grade diamonds, flawless and in almost any color, for dollars each, has existed for years. deBeers visited the plant and it was shutdown the next day. Hmm....wonder what happened there...go figure...
In various parts of the world, diamonds are a di
Re:Diamond prices (Score:5, Informative)
Re:Diamond prices (Score:2)
Re:Diamond prices (Score:2)
Wow! (Score:2)
Wow, what an extraordinary claim! Care to back it up with some sort of evidence?
--grendel drago
Re:Wow! (Score:2)
Re:Diamond prices (Score:2)
Re:Diamond prices (Score:4, Interesting)
In recent years, some scientists have been able to product synthetic diamonds - only distinguishable from "real" diamonds by the fact that the synthetics glow under phosphorescent light (or something like that). I believe the natural diamonds don't do this because of their imperfections. They looked at the possibility of selling synthetics as an alternative in the gemstone market, but De Beers simply threatened to run them out of business with the aforementioned market flooding. The cost of producing synthetics would remain mostly constant, and it wouldn't be worth it if diamond prices took a nosedive.
Now, enter this new possibility (they're still investigating whether it's even true, according to the article). If it becomes economically desirable to produce synthetic diamonds for superconducting purposes, I wonder if that would alter the gemstone diamond market? Perhaps producers could make synthetics primarily for superconducting applications, but slowly insert more into the gemstone market, pulling it out from under De Beers' noses. Eventually they'd be forced to flood the market and the end of an evil, expertly marketed monopoly could come to pass? One can only hope!
The above summary was from memory based on what I've read. I could have gotten some things wrong, so feel free to google for links. I'm too lazy. ;-)
Re:Diamond prices (Score:4, Informative)
Yes, single crystal 'gems' created in the lab are for all intents and purposes, perfect, they have to be to be used in any experiment concerning the creation of semiconducting devices.
It probably would NOT change the gemstone market due to cost of growing diamonds. IIRC, CVD (Chemical Vapor Deposition) is currently the only way to produce diamonds for manufacturing. This is in no way as cheap or easy to do is pulling a 'perfect' silicon ingot out of a molten bath.
Re:Diamond prices (Score:5, Informative)
Uh, What?. Synthetic gemstones are chemically indistinguishable from the real thing. For a while, the distinguishing characteristic of lab created gemstones was their remarkable lack of defects. However, enterprising companies that make synthetic stones have figured out how to include the defects that you normally see in natural stones. So you can no longer tell the difference. There is no law to require they be marked, and there is no inscentive for the manufacturers to do so. If you saw stones that glowed, they were probably made that way for industrial use. Ti-doped Sapphire (Al2O3) is used for "tunable" lasers, for example. In fact, the first laser was made from ruby (Cr-doped Sapphire). These days people can make synthetic sapphires the width of a telephone pole and several feet long. They are used as windows on the barcode scanners in the supermarket because sapphire is much more scratch resistant than glass.
Frankly I don't understand why people value stones that were dug up out of the ground more than ones created in the lab. It's not like there is a real difference. Besides, if you actually visited a gemstone mine, you would probably lose all the romantic ideas you have about the origin of the stones.
As far as synthetic diamonds go, there are several possible ways to produce them. CVD is commonly done to produce diamond films for research. GE Superabrasives [abrasivesnet.com] produces industrial diamonds using a high pressure process for decades. The diamonds are small, but they are cost effective. GE also produces "clarity enhanced" diamonds. They take natural diamonds that are lousy color and treat them to make them a more appealing color. Can you tell? I doubt it.
I'm a materials scientist, and I suspect that synthetic diamonds are less than a decade off. When that happens, the whole house of cards that is the diamond industry will come crashing down. Diamonds are not rare, but DeBeers controls most of the supply. When they loose that control, diamonds will crash to a price befitting their rarety.
And don't go around thinking that diamonds have ever been a good investment. The vast majority of diamonds actually depreciate relative to inflation.
Re:Diamond prices (Score:3)
C//
What slashdotters would demand... (Score:5, Funny)
engagement (Score:5, Funny)
Thermal and Electrical Conductivity (Score:5, Interesting)
High electrical conductivity and high thermal conductivity tend to run together. For instance copper has an electrical conductivity of 5.8x10^7 S/m and a thermal conductivity of 200 W/mK.
A notable exception is diamond with a low electrical conductivity on the order of 1 S/m and a high thermal conductivity of 700 W/mK.
Because of diamond's superior thermal conductivity and low electrical conductivity, it functions as an excellent material for use in a heat sink [sei.co.jp].
What interests me is, that by adding free electrons by doping the diamond with oxygen is he seeing actual superconductivity or just the high conductivity one would expect, if diamond had free electrons.
Michael.
Visit das Schlößl. [michael-forman.com]
Re:Thermal and Electrical Conductivity (Score:2)
conductivity do tend to run together, but exceptions
are numerous, including sapphire which (in some
range of temperatures) is actually a better heat
conductor than copper, yet is an hard insulator.
A slightly worse heat conductor, alumina, is
also a hard insulator.
Re:Thermal and Electrical Conductivity (Score:5, Informative)
This is known as Wiedeman-Franz Law in Physics. It describes the relationship between eletron heat transfer and conductivity. However it is only valid for Metals. Heat transfer in semiconductors is dominated by lattice vibration transport. Due to the bandgap there is little phonon/electron interaction.
A notable exception is diamond with a low electrical conductivity on the order of 1 S/m and a high thermal conductivity of 700 W/mK.
Its not an exception, its a semiconductor with a large bandgap and behaves exactly as expected.
Re:Thermal and Electrical Conductivity (Score:2)
Originally the Weiderman-Franz law was said to apply to *all* materials, so yes, Diamond was an exception. However, people soon learned about lattice vibrations and disproved^H^H^H^H refined Wiederman-Franz law to only deal with metals.
On inreresting point is that Diamond has the highest thermal conductivity of *all* non-superconducting materials. Put that on your OCed CPU and smoke it!
Obligatory Simpsons Quote (Score:3, Funny)
"In this house, we obey the laws of thermodynamics!"
so what cool things (Score:2)
Does a lot depend on how cheap we can mine or manufacture these diamonds?
Re:so what cool things (Score:5, Informative)
Because a superconductor conducts with literally zero resistance, you can create a ring of superconducting material, pump as much current into it as it will tolerate, and just let the current cycle forever. No degradation whatsoever. Then when you want power, you just tap into the ring and pull it out on demand. Superconducting rings are real devices, by the way -- they're just big and expensive and require cryogenics.
If we could make them out of something that operated at room temperature, then we could (probably) make very small superconducting rings, and if the power density were high enough, we could use them instead of batteries or fuel tanks. And they would never, ever wear out, no matter how many times you charged or discharged them. The amount of power they could contain is dependent on the superconducting material in question, but a high-power-density room-temperature superconductor (if such a thing is possible) would eliminate all of mankind's power storage and transmission problems. The only concern left would be generation.
Re:so what cool things (Score:2)
The coil energy is stored in the form of a magnetic field (the coil is a giant solenoid). The stored energy will eventually bleed off through magnetic interactions with the environment.
Then when you want power, you just tap into the ring and pull it out on demand.
Yikes.
Tapping directly works fine. (Score:5, Informative)
If you pick the number of windings carefully, tapping directly into the inductor works just fine.
The inductor wants to maintain the current flowing through the coil. If that is the amount of current you expect to draw for your load, both load and coil will be perfectly happy in the new configuration. If you wish to draw less current (or tolerate interruptions without arcing), drop a resistor in parallel with the load. This will limit voltage across the load to the amount needed to push the coil's current through the resistor.
When you aren't using the load, of course, you short across it so as to reduce resistive power loss. Typically this switching is actually performed by having a closed coil, and heating the part you want to cut out above the superconducting breakdown temperature, if I understand correctly.
The only design difficulty is that this requires a large number of windings (sheet current is typically millions of amps or more, which means you need millions of windings for a load that draws 1A).
Re:so what cool things (Score:2)
All the superconductors I've read about stop being superconductors when exposed to a strong magnetic field. Wouldn't this keep you from increasing the current arbitrarily? If so wouldn't you possibly get more power per gram or power per m^3 with a battery/fuel cell? Superconductors might still make great s
Storage density turns out to be low. (Score:2)
The problem is that storage density is limited both by the maximum magnetic field your superconductors can tolerate, and by the tensile strength of your coil (interaction between the field and the
Re:so what cool things (Score:2)
Re:so what cool things (Score:4, Informative)
In addition to their uses as magnetic coils, superconductors can be used to exploit something nifty called the Josephson effect: if you separate two superconductors by a tiny insulating gap, a supercurrent of Cooper pairs can quantum tunnel across the gap. This effect can be used in a device known as a SQUID (Superconducting QUantum Interference Device), which is essentially a fantastically sensitive magnetometer- some SQUIDs can detect fields of less than a picotesla. This has already had important applications in materials science- there are scanning-SQUID microscopes, and is finding a number of uses in medicine- specifically measuring the magnetic activity of the brain and heart. Also, SQUIDs will probably have a future in computers, as hyperfast switches, sensitive hard disk heads, or as sensors used in quantum computers, detecting the state of a qubit. IBM tried to make a computer using Josephson junctions as switches back in the late 1970s- there were a number of hurdles that prevented this device from becoming a reality, mostly the incredible rate at which "conventional" silicon chip ICs were improved, and the fact that this conventional technology does not require you to immerse your computer in liquid helium.
And yeah, there could finally be maglev trains- those operate off of the Meissner effect, discovered in the 1930s- superconductors are perfectly diamagnetic- they will expel any external magnetic field, causing the magnet (or superconductor) to be levitated. This is the effect that the scientist who observed the possible diamond RTS admits he has not done experiments to check, and it's the effect I'd really need evidence of in order to believe his findings.
I'm my own... (Score:2)
I'm my own CPU... [slashdot.org]
If successful, perhaps one day you could give your (Score:3, Funny)
That's great! Then I can base my next CPU purchase on 6-8 weeks of my salary.
Professor Frink, is that you? (Score:2, Funny)
Wow; the geek factor of that quote is off the charts!
"Professor Frink, Professor Frink, He makes you laugh, he makes you think...."
Extra Links For This Story (Score:5, Informative)
The only conceivable possibility... (Score:5, Funny)
Yep. Once you exclude the possiblility that you somehow screwed up your experiment you can safely conclude the only possibility is violation of the second law of thermodynamics.
-
big whup. you still can't make wires (Score:5, Insightful)
Even if it turns out to be practical, there is still the problem faced by the ceramic superconductors: even if you can get them to ambient temperatures, they still are brittle, rigid, and unmalleable and therefore totally unlike wires. The best you could hope for is to lay these things end-to-end in a trench by the side of the road, and the first earthquake or vibrational disturbance that comes along is going to snap, crack, and pop the circuit open. Unlike wires and fiber optics, which at least stand a chance of anything short of a backhoe.
Ordinary wind power is of far more practical importance than superconductors, fusion, fuel cells, and solar energy combined. However, Slashdot editors regularly pick those topics for the front page. In the rare event that /. does something on wind power, it's always in the non-front-page "Science" section. Come on, "stuff that matters" should actually matter. Did you know that the entire U.S. electrical grid could be powered by less than 150,000 modern wind turbines?
OT:wind turbines (Score:3)
Re:OT:wind turbines (Score:4, Informative)
Well, first off, as someone else pointed out, I should have said 1.5 million turbines, not 150,000, so as not to assume constant peak output as I had mistakenly done. However, each one of those turbines takes only 36 square meters [windpower.org], meaning that all 1.5 million would take less than 14,000 acres, or about as much oak forest that is lost each year in California alone [californiaoaks.org], or less than twice the area of the Stanford University campus. [stanford.edu]
That power costs about 4 cents per killowatt hour, compared to 3 cents for poorly-scrubbed coal (compared to European scrubbing standards, which result in 4 cents/kwh), anywhere from 7 to 15 cents per kilowatt hour for natural gas (depending on market rates with occasional shortages) 11 cents/kwh for nuclear (plus hidden externalities for waste disposal). In other words, it's the best deal around.
Right, you hit the nail on the head for the 150,000 figure. Again, I should have said 1.5 million for average output values. The occasional drop caused by widespread windlessness could be backed up by hydroelectric power stations, or storage systems [protonenergy.com].
Re:big whup. you still can't make wires (Score:2)
That's a very profound assertion, considering wind power *IS* solar energy.
Wind Farms ain't necessarily all good (Score:2)
Global wind transports are an important atmospheric commodity to transport heat around the globe. They're also very important for spreading pollen and seeds, and other biological necessities.
Sure, windpower doesn't produce CO2 or other pollutants. But most proponents entirely ignore the other environmental impacts it would have, such as reducing intra-continental air transfer (ie, there's less
Re:Wind Farms ain't necessarily all good (Score:3, Insightful)
Re:big whup. you still can't make wires (Score:5, Informative)
I did not know this, so I did some quick googling and found some interesting numbers. According to the DOE the total U.S. generation of electricity for 1999 was 3691 billion kilowatt hours.
http://www.eia.doe.gov/cneaf/electricity/epav1/
According to the Danish Windpower Industry Association, a modern wind turbine will generate about 2 to 3 million kilowatt hours of electricity per year.
http://www.windpower.org/faqs.htm#anchor727849
If these numbers (and my math) is right, your conclusion is off by about an order of magnitude
Engagement Rings (Score:3, Funny)
That's assuming you don't ever want to get married. =p
Prove your love (Score:5, Funny)
Because, God knows, women can be counted on for preferring a practical gift over a romantic one.
Re:Prove your love (Score:3, Insightful)
Because, God knows, women can be counted on for preferring a practical gift over a romantic one.
Which way are you joking? :-) This is why DeBeers had to spend so much money on their advertising campaign in the 1920s; why they had to make a movie thing of surprising the prospective bride with a ring; because, given the choice of him spending two months salary on a ring or on the downpayment on a house, h
Think of the marketing possibilities ... (Score:2, Funny)
Screw the superconductivity, the real discovery is (Score:5, Informative)
I find "experimental error" to be far more plausible, but of course it's hard to know without seeing both the original researcher's work as well as third-party confirmation results.
--
Re:Screw the superconductivity, the real discovery (Score:2)
doesn't make it sound like that is what he claims.
You have to realize that there are many similarities
between a BEC state and a Cooper pair SC state, so
that some theorists will be loose with their
terminology. He seems to mainly claim that the
electronic density is high enough for a condensed
state to develop. If more experiments show that
amgnetic field is expelled and there is a state
with coherent phase (ODLRO) then it will get
real exciting real fast. Until then
Re:Screw the superconductivity, the real discovery (Score:4, Informative)
The article skimped out on theoretical details, but the Bose-Enstein-type condensate refers to the superconducting phase-transition where the electrons form Cooper-pairs (through an electron-lattice-electron interaction). These Cooper pairs are spin-zero (the electrons pair anti-symetrically into the singlet state), and act like bosons, which can condense into the Bose-Einstein condensate.
Note that this is NOT exactly like a Bose-Einstein condensate because the bosons themselves contain two fermions, which are effectively coupled. These are similar, but not the same as the rubidium atoms in the BEC experiment you linked to. So it is kind of a BEC, but not exactly.
Now regarding your mention of a few-billionths of a degree above absolute zero, that is for the rubidium-atom experiment. THe superconducting phase-transition, which is what this article was referring to, happens in many elements at a few Kelvins, and in High-Tc materials up to the record of 150 K (I think).
Beyond that, there is other stuff that is sketchy, such as the professor retiring and not verifying that the diamond superconductors demonstrate the Meissner Effect (magnetic field expulsion from the interior of a superconductor) and other things. If this was really superconducting, I'd be sure he'd stay on as emeritus for at least a few years and keep going with these experiments, where he has a head-start over all other groups. If this is really room-temp Tc material that the article purports it to be, then this is HUGE news, and he should stay emeritus than quit research entirely. Hmmm...
Re:Screw the superconductivity, the real discovery (Score:2)
There could be lots of reasons that he retired.
What about the Cost? (Score:2)
I also shudder having to think of the poor guy in Sierra Leone who spent all week mining for the diamond to make enough money to feed his family. What will he see of this?
Giving your loved one a diamond ring CPU... (Score:2)
Someone ought to tell this guy [slashdot.org]!
Interesting (Score:2)
But how much will that going to matter when it comes down to clock cycles?
Someone needs to start coming up with rational explanations for our girlfriends now so we're not caught unprepared.
As we all know (Score:2)
So, a diamond CPU fails it.
But... (Score:3, Funny)
April first was last week. (Score:3, Insightful)
I'd need to see a lot more evidence than what's in a science journal before I'd be willing to buy it.
Diamonds (Score:2)
Screw that. With these guys [lifegem.com], you can turn yourself into a CPU! When you die, your children can play Doom VI because of your remains.
What everyone REALLY wants to know.... (Score:2, Funny)
taco's secret revealed (Score:2)
Manufacturing? (Score:2, Interesting)
Myself I'd like to know what kind of manufacturing is available to make this possible.
With silicon semiconductors, a massive crystal of the stuff can be grown by suspending a small crystal "seed" an molten silicon and very slowly pulling the seed upwards while rotating..
Carbon, on the other hand, isn't so obliging - It doesn't melt, it sublimes directly from a solid state into a gaseous one, so this way's out..
Using diamond as a basis for microcircuit manufacture can't seriously take off until we ca
Re:Manufacturing? (Score:5, Insightful)
The process involves flowing a mixture of alcohol (-COOH), Water Vapor, and Hydrogen over a hot (2400 degree Centigrade) tungsten filament, flowing the resulting gas over a warm (900 degree Centigrade) Si or Mb plate in an oxygen free environment. The idea being that when the mix hits the tungsten, the alcohol combines with the Hydrogen to from two water molecules, leaving the carbon as a free radical.
This was a repeat of an experiment from the 50's. I imagine they've improved the process to the point of being able to reliably grow larger crystals by now. I seem to remember that the heat differential between the filament and the plate was a problem (smaller heat differential = bigger/better crystals at a trade off of time to grow) and that the substrate was also a problem... an existing diamond crystal seed of some sort would provide a much better substrate. An Si substrate, for instance, means that the attatchment points on the surface of the plate for the carbon free radicals doesn't match what you would find in diamond, so adjacent deposition sites can't work together to form the same larger crystal.
Re:Manufacturing? (Score:2, Insightful)
You can grow diamond from the vapor phase. (CVD-Diamond). This does work and is state of the art. There are also some people out there who try to grow diamond from a fluid phase using a precursor/solvent, but results have yet to be shown..
Current Difficulties (Score:2)
Great... (Score:3, Funny)
Really corny article text. (Score:4, Funny)
And promptly have her kick your nuts in.
"If successful, perhaps one day you could give..." (Score:3, Funny)
You don't know a whole lot of women do you?
For marriage that is defintely out, but for engagement purposes, perhaps it could serve as a token ring?
--Joey
Re:prices would SOAR! (Score:5, Funny)
Can I Give her Diamond Token Ring? (Score:5, Funny)
Re:Can I Give her Diamond Token Ring? (Score:4, Funny)
No problem! (Score:3, Funny)
You misunderstand.
"Since we'll never have women, now we have a use for all those frickin' diamonds!"
And if you *do* have a woman, all you have to do is say "Honey, there's a Slashdot posting that says diamonds can be room-temperature superconductors. Can you hand me my, uh, I mean your engagement ring for a few minutes? Yes, honey that is a 1kV supply and a vaccuum pump", and you'll be back in bachelorhood with the rest of us.
A beowulf cluster would be... (Score:3, Funny)
Re:Yea, so? (Score:2, Funny)
Why, last week I spent four hours pumping all the air out of my lightbulbs...
Re:quick, call slashdot! (Score:2, Interesting)
-5 Offtopic