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Cloaking equipment , a staple of science fable ( think Harry Potter ) , are dumbfound closer to realism . Researchers at Duke University have built a structure that would hide anything under it from echo sounder — at least in air .

Made of shroud of penetrate plastic , the pyramid - shaped cloak changes the shape and speed ofsound wavesas they hit it . Those changes make the sound moving ridge appear to reflect off the surface the pyramid is standing on , as though it was n’t there .

Bogdan Popa, a research scientist in electrical and computer engineering, shows off the 3D acoustic cloak he helped design and build as a member of Steven Cummer’s laboratory.

Bogdan Popa, a research scientist in electrical and computer engineering, shows off the 3D acoustic cloak he helped design and build as a member of Steven Cummer’s laboratory.

To build the cloak , Lucian Zigoneanu , Bogdan - Ioan Popa and Steven Cummer model the way effectual waves act on a computer . They try out several simulated shapes , and eventually come up with the Great Pyramid pattern , made with sheets that have holes in them . [ See Video of Sound - Cloaking gadget in Action ]

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To examine their idea , they put a sphere inside the pyramid , and then placed both in a mostly empty room with a wakeless source and a microphone . The reasoned generator made a " Ping River " that would bounce off the pyramid . A single microphone on a gantry - like apparatus immortalise the sound from 100 of different positions .

an illustration of sound waves traveling to an ear

The holes had to be exactly the right size , adjust according to the wavelength of the sound hitting them . Without the holes the sound waves would just bounce off and expose the presence of the pyramid . With them , some sound wafture were slow down . The slow waves follow a farsighted course back to a demodulator , just as they would if the pyramid was n’t there . The shape of the reverberate wave looks just as it would if it hit a flat open , fooling any echo sounder into thinking the cloak and anything under it does n’t exist .

When sonar equipment sends a " ping , " or squash racquet ordolphins employ echolocation , they time the sound to see how long before it is reflected back . but absorbing the audio would n’t work for the same grounds engage alllight wavelengthswouldn’t — alternatively of an unseeable objective you ’d have a pitch-dark pattern .

" In [ the ] cloaking problem you ca n’t have the sound reflect in a dissimilar direction , and you ca n’t just absorb , because it casts a dark , " Cummer told Live Science .

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That fact makes cloaks crafty to plan : The undulation of sound or light must make out back to the detection gadget — be it sonar microphones , human eyeballsor radio detection and ranging — with the same shape and frequency they ’d have with no objective in the way .

Next steps for sonar cloak

Cummer noted that there ’s still some style to go before this technology would be readyto protect a submarine .

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" The real kicker in strain to transition to water is that there ’s so much contrast in the material , " he said . " With air and a solid , no sound wave energy baffle into the solid . "

Unlike air , urine , is so dense that the vibe get into the cloak itself and the object you want to hide . The density of water supply also vary more , so the wave behave otherwise and a much more convoluted curing of calculations would be required . In addition , a moving object adds another bed of complexness to the design , because the angle the good waves are hail from change .

That said , there are other areas where a sound cloak might prove utile . Auditorium figure is one , and solving the problems of stick out sounds tacky enough for the people in the cheap seats to learn while avoid unwanted echoes . Cloaking certain structures might one day solve those problem .

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Cummer , a professor of electrical and computer engineering , started his scientific calling investigating light waves , but before long ramify into investigate sound as well . " Waves are waves , " he said .

With this line of research he wanted to show that using computer - aid design and use sophisticated maths could allow one to construct cloaks without alien materials . " We want to more loosely show that transformation - base approach can be done with well designed things not that difficult to make , " he said .

The sound cloak is detail in the March 9 issue of the diary Nature Materials .

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