backtop


Print 35 comment(s) - last by SilthDraeth.. on Jul 23 at 4:09 PM


An electron scanning microscope image of the University of Florida's Casimir force testing metal fin plate. Bizarre geometry may help prevent the quantum force from interfering with the ever-shrinking world of electronics.  (Source: Yiliang Bao and Jie Zoue/University of Florida)
"Gotta keep 'em separated."

Quantum physics isn't a very disciplined place. Bizarre things tend to happen as scientists peer deeply into the smaller and smaller worlds afforded by advancing technology. One such weak quantum force, known as the Casimir force, named for the origin of its predicted effect, Hendrik Casimir, is currently under scrutiny by University of Florida researchers.

When two objects are placed extremely close together, they will be attracted to each other by this only recently proven to exist quantum force. Instead of the objects' masses pulling them together, Casimir force works as an external force, almost like hydrodynamic pressure.

In this case, the empty space between the two objects isn't actually empty. All space is filled with electromagnetic fields and the virtual particles associated with them. These particles, in quantum physics, also exist as waves, and here's where things start to make sense. Around the objects, these particle/waves can be of any varying wavelength, but only a smaller number of shorter wavelength particles can fit between them. This creates a sort of low versus high pressure system where the force of the “heavier” longer wavelength particles acts to push the masses together.

UF's research into this interesting force may, in the future, help the ever growing miniaturization of electronic components. As MEMS (microelectricalmechanical) devices get smaller and stacked closer together, the likelihood of the Casimir force becoming a problem gets larger. “Stiction” is already a problem in super-fine structure assembly, and though it can be caused by a number of variables, the Casimir force can easily contribute to it.

In a paper published in Physical Review Letters, lead-author Ho Bun Chan explains, “We are not talking about an immediate application, we are talking about, if the devices continue to be smaller and smaller, as the trend of miniaturization occurs, then the quantum effects could come into play.”

With integrated circuits and other electronic parts rapidly losing size but gaining parts and complexity, these effects could easily occur in the next decade.

To study how Casimir force can be affected by structure, the UF team created a metal panel resembling a fin radiator, with fin structures of approximately 200nm separated by the same distance. This effectively cut the gapped surface area in half compared to two flat plates that were used as a control. They found that, though having more area between the plates for longer wavelength particles to occupy and half the accessible surface area, the comb-like structure only reduced Casimir force by 30 to 40 percent.

While the experiment didn't show the expected 50 percent reduction, it helped prove that, instead, the strength of the Casimir force depends on the geometry of the objects in question. This may be useful in the future for MEMS and other nanomachinery engineers as they need to design nanoscopic parts that would not work well if they were heavily affected by the mysterious quantum particles.



Comments     Threshold


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

RE: Use the Force!
By someguy743 on 7/19/2008 5:35:08 PM , Rating: 2
The Casimir Effect = "The Ghost in the Machine" ... like that CD by "The Police" in the early 80s? :)

http://www.amazon.com/Ghost-Machine-Police/dp/B000...

Maybe everything really does have an "aura" or whatever. Who knows? Maybe its some sort of quantum force that scientists cannot measure. Just because the scientists of today can't measure or explain something right now doesn't mean its not real. Scientists in 100 years will probably laugh at the scientists of the last 50 years ... kind of like our current scientists laugh at the ones from the 1800s or whatever.

Science isn't 100% "settled" just yet. It will still evolve. There's probably plenty of big discoveries on the way. Maybe they'll learn a lot more once they get that new CERN "Large Hadron Collider" ready to go this year.

http://en.wikipedia.org/wiki/Large_Hadron_Collider

I'm hoping that they'll use what they learn from that collider to get FUSION ENERGY going. Practical fusion reactors would change the world bigtime. Forever. We'd really be a hotshot species in the universe once we got fusion energy mastered. The aliens would be impressed. :)

We could harness the same forces that power the sun. We could build a "mini-sun" that puts out UNLIMITED amounts of energy. Fusion reactors could get most of the things it needs from seawater. Fusion reactors are also FAR safer than fission reactors. Not much waste at all and crackpot regimes like Iran couldn't use them to build nuclear bombs.

We've been researching fusion for 50+ years. It's time they made a big breakthrough and start building some damned fusion power plants. Just ONE fusion power plant by 2020 would be nice.

http://en.wikipedia.org/wiki/Fusion_power

God knows we need new energy sources these days. Fusion could power just about everything from our toasters to the electric cars that are coming in the next few years.


"So if you want to save the planet, feel free to drive your Hummer. Just avoid the drive thru line at McDonalds." -- Michael Asher











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