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Acoustic cloak shields from sonar, sound wave detection

Posted: 19 Mar 2014 ?? ?Print Version ?Bookmark and Share

Keywords:Duke University? invisibility cloak? sonar? sound wave?

A team of researchers at the Department of Electrical and Computer Engineering at Duke University has developed a hollow structure that could cloak any object placed inside, from sound. The cloak is made of sheets of plastic, designed into a structure with precisely repeating perforation patterns and specifically engineered to process sound waves as they pass by, so as to interact with them in a way that conceals both the cloak and what's inside, the researchers described.

"To give the illusion that it isn't there, the cloak must alter the waves' trajectory to match what they would look like if they had not come across it," explained Steven Cummer, professor and leader of the project at Duke University.

The cloak effectively works from all directions, it takes the sound wave "processes it mechanically" and restores it in its original wave front as if no obstacle had been encountered by the sound wave.

"That mechanical processing involves diverting the wave energy around the object and through the cloaking shell, and then put it back together so that it leaves the shell just like nothing was there," clarified Cummer.

"The incident sound energy is not reflected, and it is redirected (not absorbed) around the visible object by the cloaking shell so that it does not cast a shadow. And sound could bounce back off another object and pass through the cloak a second time."

This is very different from what you would get from any non-echoing material (like for example the spiky foam you find in anechoic chambers).

Cummer highlights the difference: "Those spiky foams are designed to absorb incident sound and not reflect any back. If you tried to cloak an object with the same spiky foam, first you would get no reflection from it. Because a cloaked object should behave like nothing at all, that is good, because there are no reflections from "nothing."

However, any incident sound would be absorbed by the cloaked object as well. That is bad, because sound is not absorbed by "nothing," it should pass straight through. Thus an object covered in absorbing foam would not reflect but would cast a big sound shadow, making it detectable."

So would it be conceivable to engineer deceitful echo signatures in these cloaks, and could that be used in sonic installations to boost certain sound characteristics or to create new effects at room level?

Cummer thinks this is the sort of tricks that can be done with this approach. "I am trying to engage as many audio design professionals as I can to explore these possibilities. It's not really my area so I don't have a good sense of what would or would not be useful, but I am fairly certain that there must be useful things that can be done this way."

Of course, another obvious application that one would think of is stealth submarines.

"We conducted our tests in the air, but sound waves behave similarly underwater, so one obvious potential use is sonar avoidance," admitted Cummer whose research was supported by Multidisciplinary University Research Initiative grants from the Office of Naval Research and from the Army Research Office.

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