by Bidita Debnath on  December 22, 2013 at 10:57 PM Research News
 Harry Potter's Invisibility Cloak may Soon Come True
The first design for an active cloak has been proposed by a team of researchers that draws energy from a battery, allowing objects to become undetectable to radio sensors over a greater range of frequencies.

Andrea Alu, associate professor in the Department of Electrical and Computer Engineering at the Cockrell School of Engineering, along with ai-Yen Chen and postdoctoral research fellow Christos Argyropoulos co-authored the paper.

Both Chen and Argyropoulos were at the University of Texas at Austin at the time this research was conducted. The proposed active cloak will have a number of applications beyond camouflaging, such as improving cellular and radio communications, and biomedical sensing.

Cloaks have so far been realized with so-called passive technology, which means that they are not designed to draw energy from an external source.

They are typically based on metamaterials (advanced artificial materials) or metasurfaces (flexible, ultrathin metamaterials) that can suppress the scattering of light that bounces off an object, making an object less visible. When the scattered fields from the cloak and the object interfere, they cancel each other out, and the overall effect is transparency to radio-wave detectors.

They can suppress 100 times or more the detectability at specific design frequencies. Although the proposed design works for radio waves, active cloaks could one day be designed to make detection by the human eye more difficult.

Alu said in this study they proved that cloaks can become broadband, pushing this technology far beyond current limits of passive cloaks.

"I believe that our design helps us understand the fundamental challenges of suppressing the scattering of various objects at multiple wavelengths and shows a realistic path to overcome them," he said.

The proposed active cloak uses a battery, circuits and amplifiers to boost signals, which makes possible the reduction of scattering over a greater range of frequencies.

This design, which covers a very broad frequency range, will provide the most broadband and robust performance of a cloak to date. Additionally, the proposed active technology can be thinner and less conspicuous than conventional cloaks.

The study was published in Physical Review Letters.

Source: ANI

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