New Nanodevice Creates a Near Perfect Electron Stream

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New Nanodevice Creates a Near Perfect Electron Stream

Posted by samzenpus on Wednesday July 11, 2012 @02:11PM from the don't-cross-the-streams dept.

SchrodingerZ writes "Scientists from the National Physics Laboratory of the United Kingdom have teamed up with the University of Cambridge to create a new electron pump that creates a single electron stream. "The device drives electrical current by manipulating individual electrons, one-by-one at very high speed." The pump takes single electrons, and pushes it over a barrier with an indent for the electron to fall into, and is then sent to the opposite side of the barrier with astounding precision. "By employing this technique, the team were able to pump almost a billion electrons per second, 300 times faster than the previous record for an accurate electron pump set at the National Institute of Standards and Technology (NIST) in the USA in 1996." Although the current was very small (150 picoamperes), this event could cause a shift from the ampere measure of current to a smaller, more precise unit of measurement for electrical current."

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Errr by Anonymous Coward · 2012-07-11 14:26 · Score: 4, Insightful

"The pump takes single electrons, and pushes it over a barrier with an indent for the electron to fall into, and is then sent to the opposite side of the barrier with astounding precision. "
What is pushed over the barrier? What is sent to the opposite side of the barrier?
Sentences like this need rewriting, at the very least until they actually make some semantic sense.
Re:Practical applications/implications of this? by marcosdumay · 2012-07-11 14:45 · Score: 5, Funny

Not a guru, but the page reads the following:
"Sorry, an error occurred while processing your request"
It is usefull for warning people that this article appeared at /.

--
Rethinking email
Do the same to protons. by p0p0 · 2012-07-11 15:01 · Score: 4, Funny

We focus protons the same and we can start catching some ghosts.
Who you gonna call? SCIENCE!
1. Re:Do the same to protons. by GoodNewsJimDotCom · 2012-07-11 16:05 · Score: 3, Funny
  
  Those are also known as Chuck Norris streams, because you do not cross them or people might die.
  
  --
  God spoke to me
Re:Practical applications/implications of this? by Krishnoid · 2012-07-11 15:06 · Score: 4, Funny

Well, an extremely-low jitter audio signal finally worthy of transfer over your Pear Anjou cables comes to mind right away.
Re:Moray Valve Gone Missing by Anonymous Coward · 2012-07-11 15:36 · Score: 3, Funny

Is that a valve that selectively lets through moray eels, but blocks all other Anguilliformes?
1A = 6.241x10^18 electrons/second by RichMan · 2012-07-11 15:42 · Score: 4, Informative

A billion electrons per-second = 1x10^9 which is a lot less than 1A.
A billion electrons per-second = 10^9/6.241x10^18 = 0.160nA = 160pA = 160x10^(-12) A (160 pico-amperes so pretty much the number in the article).
So while this might be a whole wack load electrons for this type of device it really is not much.
Also it might make you respect your hose wiring a little more.
Your 200A house service is (200*1A) = 1.2482x10^21 electrons per second.
Re:OMG, Maxwell's Demon! by The+Master+Control+P · 2012-07-11 16:16 · Score: 3, Informative

Keep dreaming.

The computation/observation needed for the demon to do his thing exceeds the energy made available by doing so.
Nice. Closer to absolute measurements. by Animats · 2012-07-11 17:25 · Score: 5, Informative

The idea here is to define the ampere as N electrons per second. This may make that possible. The number is around 6.241 Ã-- 10^18 electrons per second. Direct counts of electrons allow a precise, repeatable way to define an amp.
The goal is to define the fundamental units from measurable properties of the universe, so that reproduceable standards can be constructed. That's been achieved for time and length, but not mass. You can buy an atomic clock that gets its time measurement from the definition of the second. (HP used to make those, but that business was sold off from Agilent in 2006.) There's a method with a Kr-86 light source and interferometers to count out a meter in wavelengths of light. But there's no corresponding standard for mass. Mass is tied to a physical 1Kg weight stored in France, and everything has to be traced back to that, with each successive derived standard kilogram a little less accurate.
A kilogram ought to be defined as N atoms of something, but atom counting isn't quite good enough yet. There's a plan to define mass through the Planck constant, which means tying the standard of mass to the standard of current.
Three fundamental units are sufficient to lock down all the other units, and this is a step towards doing that.
1. Re:Nice. Closer to absolute measurements. by walshy007 · 2012-07-11 17:53 · Score: 4, Interesting
  
  A kilogram ought to be defined as N atoms of something, but atom counting isn't quite good enough yet. There's a plan to define mass through the Planck constant, which means tying the standard of mass to the standard of current.
  
  This has been done, with a specific sized sphere (in atoms) of silicon
Re:The last sentence by CatBandit · 2012-07-11 23:46 · Score: 3, Informative

Sorry but no.
Ampers measures electric current flow.
Volts mesaures voltage potencial.
In some cases there is a relationship (by the means of an ideal source and an ideal resistor), but "Amps is dependent on voltage only in a specific case".