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THz Control Could Mean X-Ray Vision

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WASHINGTON, DC, May 10, 2010 — Boston University researchers are closing in on making x-ray vision a reality.

Led by BU's Richard Averitt, the team has developed a new way to detect and control terahertz (THz) radiation using optics and materials science. This type of radiation is made up of electromagnetic waves that can pass through materials safely. Their work may pave the way for safer medical and security scanners, new communication devices, and more sensitive chemical detectors.

The researchers will present their device at the Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference (CLEO/QELS: 2010), which takes place May 16 to 21 at the San Jose McEnery Convention Center in San Jose, Calif.

Scientists and engineers have long sought devices that could control THz transmissions. Such a device would be a technological breakthrough because it would allow information to be sent via THz waves. Like X-rays, these waves can pass through solid materials, potentially revealing hidden details within.

Unlike the ionizing energy of real X-rays, THz radiation causes no damage to materials as it passes through them.

The quest to create devices that emit or manipulate THz radiation is often referred to as a race to fill in the "THz gap," since the frequency of THz radiation on the electromagnetic spectrum falls in between microwave and infrared radiation -- both of which are already broadly used in communication.

This race has often stumbled right out of the blocks, however, because no technologies have proven able to effectively solve the basic problem of manipulating the properties of a beam of THz radiation. Now Averitt and his colleagues have made an important step in this direction by using an unusual class of new materials known as "metamaterials."

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Metamaterials are unusual in the way they interact with light, giving them properties that don't exist in natural materials. They have grabbed headlines and captured the popular imagination in recent years after several groups of researchers have used metamaterials to achieve limited forms of "cloaking" -- the ability of a material to completely bend light around itself so as to appear invisible.

Averitt uses these same sorts of metamaterials to interact with and change the intensity of a beam of THz radiation. His device consists of an array of split-ring-resonators -- a checkerboard of flexible metamaterial panels that can bend and tilt. By rotating the panels, his team can control the electromagnetic properties of a beam of THz energy passing by them.

"The idea is that you can manipulate your terahertz beam by reorienting the metamaterial elements as opposed to reorienting your beam," said Averitt.

Arrays of these metamaterial panels could potentially function as pixels on a camera that detects THz radiation, he said. Absorption of THz radiation would cause the panels to tilt more or less depending on the intensity of the THz bombarding them.

"One of the goals, from a technological point of view, is to be able to do stand-off imaging, to be able to detect things beneath a person's clothes or in a package," said Averitt.

Such detection applications, though, would require more powerful THz sources like quantum cascade lasers, which are under development -- though great technological strides have been made in the last few years.

For more information, visit: www.osa.org  



Published: May 2010
Glossary
electromagnetic spectrum
The total range of wavelengths, extending from the shortest to the longest wavelength or conversely, that can be generated physically. This range of electromagnetic wavelengths extends practically from zero to infinity and includes the visible portion of the spectrum known as light.
microwave
An electromagnetic wave lying within the region of the frequency spectrum that is between about 1000 MHz (1 GHz) and 100,000 MHz (100 GHz). This is equivalent to the wavelength spectrum that is between one millimeter and one meter, and is also referred to as the infrared and short wave spectrum.
radiation
The emission and/or propagation of energy through space or through a medium in the form of either waves or corpuscular emission.
AmericasBiophotonicsBoston Universitychemical detectorsCLEO Expo 2010CLEO/QELSCLEO10cloakingdefenseelectromagnetic spectrumelectromagnetic wavesflexible metamaterialIndustry Eventsinfrared radiationLight SourcesMassachusettsmaterials sciencemedical scannersmetamaterialsmicrowaveOpticsquantum cascade lasersradiationResearch & TechnologyRichard Averittsecurity scannersSee-through camerasSensors & Detectorssplit-ring-resonatorsstand-off imagingTHz ControlTHz transmissionsWashington DCx-ray visionLasers

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