backtop


Print 15 comment(s) - last by DarkUltra.. on Sep 23 at 6:48 PM

World's first ever single-atom silicon quantum bit opens the door to new quantum computers based on traditional materials

Using a silicon circuit with a phosphorous donor atom, researchers at the University of New South Wales have achieved a critical step forward in the path to quantum computers.

Past efforts have been limited to making nanostructures to read spin, or to making quBits that stored it.  This work represents a bold step forward as it's reportedly the first single-atom silicon quBit system endowed with both the ability to read and write the bit coherently.

The bit showed excellent coherence, lasting for 200 micro-seconds (0.2 milliseconds), or about 400,000 clock cycles on a 2 GHz CPU.  The paper suggests that with tighter control of the phosphorous doping, coherence could be extended to last for seconds.

The quBit system was manufactured using standard complementary metal-oxide-semiconductor (CMOS) techniques.  Nanostructures were grown on silicon-dioxide.

QuBit nanostructure
The quantum bit read/write nanostructure [Image Source: Nature/UNSW]

Electron spin was first set by 1 Tesla magnetic field -- around the intensity of the magnetic field at the surface of a Neodymium magnet (by contrast the Earth's magnetic field is a near 31 microTeslas at the Equator).  The electron temperature was then brought down to 300 milliKelvin (note to readers: milliKelvin coolers are pretty expensive, as one might think -- but work is being done to bring down prices).

QuBit
Visualization of the electrons set in a certain spin. [Image Source: Nature/UNSW]

Reads were accomplished given a technique called single-shot projective measurement.

The long term goal of this kind of research is to create nanostructure quBits that use traditional processes, with some extra tweaks (cooling, high power magnetic sync) to encode information in the spins of electrons, and then use other nanostructures to read that stored information coherently.

QuBits could then be applied to one of two purposes.  

First, quBits could be used with traditional transistor circuitry to provide dense storage, as one quBit (with the right read/write nanostructure equipment) could store multiple states (0, 1, 2, 3, ...) (via different electron spins) versus a traditional bit, which only can have two states (0, 1).

Second, quBits could be coupled together to produce a quantum computer capable of solving certain types of problems like integer factorization far faster than traditional computers.


The new work still has some issues before its ready for prime-time -- relatively short coherence, the need for intense cooling -- but it also is promising given its use of traditional materials and manufacturing techniques

The work was presented in the prestigious peer-review journal Nature.  The first author was Jarryd Pla and the senior author was Professor Andrea Morello.  The work was funded by the US Army Research Office and the Australian Research Council Centre of Excellence for Quantum Computation and Communication Technology.

Sources: Press Release, YouTube, Nature



Comments     Threshold


This article is over a month old, voting and posting comments is disabled

Awesome
By Ammohunt on 9/20/2012 6:14:03 PM , Rating: 2
Can't wait for my grand kids to get their own quantum computer kit in 2173!




RE: Awesome
By Camikazi on 9/20/2012 6:23:27 PM , Rating: 3
161 years and only grand kids? You guys must be slow breeders :P


RE: Awesome
By UnauthorisedAccess on 9/20/2012 7:44:12 PM , Rating: 3
...or he knows something about a government imposed suspended animation. Not sure about you but I'm doubling the layer of alfoil on my head.


RE: Awesome
By ilostmypen on 9/20/2012 7:51:45 PM , Rating: 2
Given an average spawning age of 20, 161 years should be close to Great^6 Grandchildren


RE: Awesome
By Joz on 9/20/2012 8:13:57 PM , Rating: 2
20?

Kill me now.

I don't even plan to have kids till im at least 30-35; and if my kids grow up with kids who's parents are only 20 when they had them...

no.


RE: Awesome
By inighthawki on 9/20/2012 9:29:15 PM , Rating: 2
Well he did say average, which is probably also a bit low. It's not exactly a requirement, however. It's more interesting how much is provoked surprise in you. Are you only like 14 years old or something?


RE: Awesome
By heffeque on 9/21/2012 7:35:58 PM , Rating: 2
It also depends on the culture. Most people in Spain and Italy marry and have children in their 30s.

Underdeveloped societies in second and third world countries and societies with a big socioeconomic inequality like the US breed soon and a lot.

Also the higher the education the higher probability there is that children will come in a later age.

My other half and I are almost in our 30s and we're not planning on marrying any time soon... or having children soon either for that matter.


RE: Awesome
By Kurz on 9/22/2012 10:55:12 AM , Rating: 2
Like the stab at US citizens...


RE: Awesome
By DarkUltra on 9/23/2012 6:48:41 PM , Rating: 2
I think you should consider to hurry up. Autism, especially the asperger variant, increases dramatically the higher the age of the father is. Get your kids early, throw them out at age 18-20 and live easy for the rest of your days.


RE: Awesome
By Devilboy1313 on 9/20/2012 11:34:47 PM , Rating: 3
"Average spawning age"

I had to smile at this. While correct it's still kinda funny.


RE: Awesome
By Master Kenobi (blog) on 9/21/2012 10:14:22 AM , Rating: 4
Need more overlords.


RE: Awesome
By Kurz on 9/22/2012 10:55:54 AM , Rating: 2
Psssh Pylons


1 atom qbit
By xdrol on 9/21/2012 8:54:43 AM , Rating: 2
Well duh. A qbit is per definition is 1 "something", usually atom (could be a photon, an electron, etc. also). And it's called qbit not qubit..




RE: 1 atom qbit
By xdrol on 9/21/2012 8:57:10 AM , Rating: 2
Or well. This can be something different, but in that case it's not quantum computing.


RE: 1 atom qbit
By geddarkstorm on 9/21/2012 1:16:29 PM , Rating: 2
More specifically, it's an application of spintronics. Spintronics is a field of quantum computing, where you're exploiting the quantum nature of electron (or odd numbered/ odd molecular weight nuclei) magnetic spins.


"What would I do? I'd shut it down and give the money back to the shareholders." -- Michael Dell, after being asked what to do with Apple Computer in 1997














botimage
Copyright 2014 DailyTech LLC. - RSS Feed | Advertise | About Us | Ethics | FAQ | Terms, Conditions & Privacy Information | Kristopher Kubicki