X

'Ultra-thin invisibility skin cloak' could one day be worn like a garment

Scientists have created a thin cloak that can render anything it covers undetectable, and that proves yet again that we're living in the science fiction future.

Eric Mack Contributing Editor
Eric Mack has been a CNET contributor since 2011. Eric and his family live 100% energy and water independent on his off-grid compound in the New Mexico desert. Eric uses his passion for writing about energy, renewables, science and climate to bring educational content to life on topics around the solar panel and deregulated energy industries. Eric helps consumers by demystifying solar, battery, renewable energy, energy choice concepts, and also reviews solar installers. Previously, Eric covered space, science, climate change and all things futuristic. His encrypted email for tips is ericcmack@protonmail.com.
Expertise Solar, solar storage, space, science, climate change, deregulated energy, DIY solar panels, DIY off-grid life projects. CNET's "Living off the Grid" series. https://www.cnet.com/feature/home/energy-and-utilities/living-off-the-grid/ Credentials
  • Finalist for the Nesta Tipping Point prize and a degree in broadcast journalism from the University of Missouri-Columbia.
Eric Mack
2 min read

a31431991ab52762800x800ar.jpg
Enlarge Image
a31431991ab52762800x800ar.jpg
Forget virtual invisibility, this cloak is the real deal. Staffan Larsson

In the great quest to make the coolest stuff from "Star Trek" come to life, scientists have found a way to create a real-world invisibility cloak that could one day actually be worn like a cloak, or even more creepy, like a second, disappearing skin.

A team of researchers at the US Department of Energy's Lawrence Berkeley National Laboratory and the University of California at Berkeley have created what they call "an ultra-thin invisibility 'skin' cloak" that can be wrapped around a three-dimensional object to render it optically undetectable. Imagine being able to wrap an apple (or a 24th-century starship) in thin plastic wrap and hitting a switch, and the fruit (or USS Enterprise) suddenly disappears. That's the basic concept.

There are other real invisibility cloak concepts out there, like the " Rochester Cloak" that can make an area invisible when you look through a set of lenses at it, and other engineered metamaterials (artificial nanostructures engineered with electromagnetic properties not found in nature) that hide objects. But these gizmos tend to be more like bulky carpets than cloaks. This new ultrathin cloak, described in a paper to be published Friday in the journal Science, appears much more versatile than anything seen to date outside science fiction.

8 sci-fi ideas that might become science fact pretty soon (pictures)

See all photos

"This is the first time a 3D object of arbitrary shape has been cloaked from visible light," Xiang Zhang, director of the Berkeley National Lab's Materials Sciences Division, said in a statement. "Our ultra-thin cloak now looks like a coat. It is easy to design and implement, and is potentially scalable for hiding macroscopic objects."

Right now the cloak is microscopic and has been used to hide an object the size of a few irregularly shaped biological cells, but Zhang says the ultrathin design should be able to scale up to much larger sizes far more easily than the earlier, carpetlike cloaks. So in theory, a large enough cloak would be able to make all our dreams and nightmares come true by concealing a dragon or an enemy warship.

It's easiest to just presume this new skin cloak is powered by magic, and the science behind it is actually pretty close. The cloak is made up of blocks of gold nanoantennas and is significantly thinner than skin at just 80 nanometers. The cloak's surface is meta-engineered to route light waves in such a way that the object is rendered invisible when the cloak is activated. The scientists say the result is identical to light being reflected off a flat mirror.

Rather than enabling a new generation of high-tech pranksters or Starfleet defenses, the more likely applications for this technology include use in optical microscopes, speedy optical computers, security encryption and perhaps even in 3D displays.

Of course, this all depends on the scientists not losing their awesome new innovation, which also happens to be microscopic and invisible.