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Is space like a chessboard?
University of California - Los Angeles ^ | March 18, 2011 | Unknown

Posted on 03/18/2011 2:19:39 PM PDT by decimon

Physicists at UCLA set out to design a better transistor and ended up discovering a new way to think about the structure of space.

Space is usually considered infinitely divisible — given any two positions, there is always a position halfway between. But in a recent study aimed at developing ultra-fast transistors using graphene, researchers from the UCLA Department of Physics and Astronomy and the California NanoSystems Institute show that dividing space into discrete locations, like a chessboard, may explain how point-like electrons, which have no finite radius, manage to carry their intrinsic angular momentum, or "spin."

While studying graphene's electronic properties, professor Chris Regan and graduate student Matthew Mecklenburg found that a particle can acquire spin by living in a space with two types of positions — dark tiles and light tiles. The particle seems to spin if the tiles are so close together that their separation cannot be detected.

"An electron's spin might arise because space at very small distances is not smooth, but rather segmented, like a chessboard," Regan said.

Their findings are published in the March 18 edition of the journal Physical Review Letters.

In quantum mechanics, "spin up" and "spin down" refer to the two types of states that can be assigned to an electron. That the electron's spin can have only two values — not one, three or an infinite number — helps explain the stability of matter, the nature of the chemical bond and many other fundamental phenomena.

However, it is not clear how the electron manages the rotational motion implied by its spin. If the electron had a radius, the implied surface would have to be moving faster than the speed of light, violating the theory of relativity. And experiments show that the electron does not have a radius; it is thought to be a pure point particle with no surface or substructure that could possibly spin.

In 1928, British physicist Paul Dirac showed that the spin of the electron is intimately related to the structure of space-time. His elegant argument combined quantum mechanics with special relativity, Einstein's theory of space-time (famously represented by the equation E=mc2).

Dirac's equation, far from merely accommodating spin, actually demands it. But while showing that relativistic quantum mechanics requires spin, the equation does not give a mechanical picture explaining how a point particle manages to carry angular momentum, nor why this spin is two-valued.

Unveiling a concept that is at once novel and deceptively simple, Regan and Mecklenburg found that electrons' two-valued spin can arise from having two types of tiles — light and dark — in a chessboard-like space. And they developed this quantum mechanical model while working on the surprisingly practical problem of how to make better transistors out of a new material called graphene.

Graphene, a single sheet of graphite, is an atomically-thin layer of carbon atoms arranged in a honeycomb structure. First isolated in 2004 by Andre Geim and Kostya Novoselov, graphene has a wealth of extraordinary electronic properties, such as high electron mobility and current capacity. In fact, these properties hold such promise for revolutionary advances that Geim and Novoselov were awarded the 2010 Nobel Prize a mere six years after their achievement.

Regan and Mecklenburg are part of a UCLA effort to develop extremely fast transistors using this new material.

"We wanted to calculate the amplification of a graphene transistor," Mecklenburg said. "Our collaboration was building them and needed to know how well they were going to work."

This calculation involved understanding how light interacts with the electrons in graphene.

The electrons in graphene move by hopping from carbon atom to carbon atom, as if hopping on a chessboard. The graphene chessboard tiles are triangular, with the dark tiles pointing "up" and light ones pointing "down." When an electron in graphene absorbs a photon, it hops from light tiles to dark ones. Mecklenburg and Regan showed that this transition is equivalent to flipping a spin from "up" to "down."

In other words, confining the electrons in graphene to specific, discrete positions in space gives them spin. This spin, which derives from the special geometry of graphene's honeycomb lattice, is in addition to and distinct from the usual spin carried by the electron. In graphene the additional spin reflects the unresolved chessboard-like structure to the space that the electron occupies.

"My adviser [Regan] spent his Ph.D. studying the structure of the electron," Mecklenburg said. "So he was very excited to see that spin can emerge from a lattice. It makes you wonder if the usual electron spin could be generated in the same way."

"It's not yet clear if this work will be more useful in particle or condensed matter physics," Regan said, "but it would be odd if graphene's honeycomb structure was the only lattice capable of generating spin."

###

The California NanoSystems Institute at UCLA is an integrated research facility located at UCLA and UC Santa Barbara. Its mission is to foster interdisciplinary collaborations in nanoscience and nanotechnology; to train a new generation of scientists, educators and technology leaders; to generate partnerships with industry; and to contribute to the economic development and the social well-being of California, the United States and the world. The CNSI was established in 2000 with $100 million from the state of California. An additional $850 million of support has come from federal research grants and industry funding. CNSI members are drawn from UCLA's College of Letters and Science, the David Geffen School of Medicine, the School of Dentistry, the School of Public Health and the Henry Samueli School of Engineering and Applied Science. They are engaged in measuring, modifying and manipulating atoms and molecules — the building blocks of our world. Their work is carried out in an integrated laboratory environment. This dynamic research setting has enhanced understanding of phenomena at the nanoscale and promises to produce important discoveries in health, energy, the environment and information technology.

For more news, visit the UCLA Newsroom and follow us on Twitter.


TOPICS: Science
KEYWORDS: graphene; stringtheory
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1 posted on 03/18/2011 2:19:41 PM PDT by decimon
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To: SunkenCiv

All a board ping.


2 posted on 03/18/2011 2:20:28 PM PDT by decimon
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To: decimon; KevinDavis

Just hurry up and development warp technology already!


3 posted on 03/18/2011 2:23:00 PM PDT by GeronL (The Right to Life came before the Right to Happiness)
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To: decimon

My head is spinning.


4 posted on 03/18/2011 2:26:22 PM PDT by paulycy (Islamo-Marxism is Evil.)
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To: decimon

I prefer to think of space-time as a bologna sandwich but, hey, if they want to think of it as a chess board - I say go for it!


5 posted on 03/18/2011 2:29:52 PM PDT by 2 Kool 2 Be 4-Gotten (Welcome to the USA - where every day is Backwards Day!)
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To: paulycy
My head is spinning.

As long as it retains a finite radius.

I don't understand this stuff, I just post it.

6 posted on 03/18/2011 2:30:16 PM PDT by decimon
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To: decimon

Is matter ultimately an Idea?


7 posted on 03/18/2011 2:30:43 PM PDT by AceMineral (World peace is the hog slop of philosophy.)
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To: decimon

8 posted on 03/18/2011 2:31:14 PM PDT by evets (beer)
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To: decimon

Scientific research once was used to find answers. But it was discovered that finding answers doesn’t pay the bills nearly as well as finding questions does. Thus, that has become the goal of the scientific community. To find questions. IMHO.


9 posted on 03/18/2011 2:33:06 PM PDT by TruthBeforeAll (To a liberal, if an idea is a complete & utter disaster, it's only because there's not enough of it.)
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To: AceMineral

“Is matter ultimately an Idea?”

Who is this, G.W.F. Hegel?


10 posted on 03/18/2011 2:34:23 PM PDT by Tublecane
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To: AceMineral
Is matter ultimately an Idea?

If your ideas matter.

11 posted on 03/18/2011 2:40:51 PM PDT by decimon
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To: decimon
I don't understand this stuff, I just post it.

I read all the string theory threads too. Then I go into a corner and hold the sides of my head together for awhile so they don't fly apart.

12 posted on 03/18/2011 2:42:59 PM PDT by paulycy (Islamo-Marxism is Evil.)
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To: decimon; AdmSmith; bvw; callisto; ckilmer; dandelion; ganeshpuri89; gobucks; KevinDavis; ...

Thanks decimon. It seems like a good time for a graphene topic, it's been *months*, after all.


· List topics · post a topic · subscribe · Google ·

13 posted on 03/18/2011 2:50:46 PM PDT by SunkenCiv (The 2nd Amendment follows right behind the 1st because some people are hard of hearing.)
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To: decimon

bump


14 posted on 03/18/2011 3:01:28 PM PDT by dangerdoc (see post #6)
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To: SunkenCiv

“My most humble apologies for my former words. I meant to say that those trash bags are most suitable for your women.”

If it’s not graphene, it’s trash bags.


15 posted on 03/18/2011 3:02:48 PM PDT by decimon
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To: decimon

It sounds absolutely fascinating; I just wish I knew what the heck they’re talking about.


16 posted on 03/18/2011 3:09:41 PM PDT by Jack Hammer
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To: paulycy

Indeed friend, indeed...


17 posted on 03/18/2011 3:23:29 PM PDT by Mayr Fortuna
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To: decimon
The electrons in graphene move by hopping from carbon atom to carbon atom, as if hopping on a chessboard

Given the carbon structure, perhaps more like Chinese Checkers?


18 posted on 03/18/2011 3:40:47 PM PDT by mikrofon (Nano, Nano)
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To: decimon; SunkenCiv; Slings and Arrows; Lady Jag

19 posted on 03/18/2011 3:44:36 PM PDT by martin_fierro (< |:)~)
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To: decimon

20 posted on 03/18/2011 3:44:42 PM PDT by Revolting cat! (Let us prey!)
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