UCF Professor Develops New Laser Technique To Detect Chemical Warfare in Atmosphere

By  //  March 28, 2018

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ABOVE VIDEO: In the age of terrorism, wouldn’t it be great to be able to detect dangerous chemicals in the air, before they hurt us?

ORLANDO, FLORIDA – The Department of Homeland Security could benefit from a reliable, real-time instrument that could scan the atmosphere for toxic agents in order to alert communities to a biological or chemical attack.

UCF optics and photonics Professor Konstantin Vodopyanov is developing just such a technology to accomplish that.

He has found a new way to use infrared lasers to detect even trace amounts of chemicals in the air. Every chemical is made up of individual molecules that vibrate at their own unique frequency. Vodopyanov has found a way to use lasers to detect these vibrations.

The technique is so accurate and sensitive that he can determine if there is a molecule of any chemical present even at concentrations as low as one part per billion. So even if someone tried to hide the toxic chemicals, his technique would be able to detect them.

His findings are published today in Nature Photonics.

“We still have much work ahead,” he said. “We are now working on broadening the range of the laser frequencies that can get the job done. If costs can be reduced and the tech made mobile, the applications could be endless.”

A similar principle is used in the medical field to detect biomarkers for different kinds of health conditions, including cancer, by taking breath samples.

UCF optics and photonics Professor Konstantin Vodopyanov works with his team to broaden the range of the laser frequencies that can get the job done. (Image by Karen Norum UCF)

It’s possible, Vodopyanov said, because of the rules of physics.

“The frequencies of molecules are very distinct, but they are invariant – here, on a different continent, on a different planet, anywhere,” Vodopyanov said. “It is universal. Think of it as a molecular fingerprint. So when we use the laser we can detect these fingerprints with great precision.”

The novel approach could open the door for developing non-invasive technology, including sensors, that could be used to detect:

  • airborne agents that could be encountered in a biological or chemical attack at home or on the battlefield
  • traces of life by space explorers on missions to other planets or asteroids

Other collaborators on the Nature Photonics paper include Andrey Muraviev at UCF’s the College of Optics & Photonics, Viktor Smolski of IPG Photonics -– Mid-Infrared Lasers in Birmingham, AL, and Zachary Loparo from UCF’s Department of Mechanical and Aerospace Engineering.

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Vodopyanov obtained his doctorate from the Lebedev Physical Institute in Moscow. He’s spent years teaching and conducting research in Russia, Germany, the United Kingdom and Stanford University in California before joining UCF in 2013.

He’s also worked in industry, including the Silicon Valley start-up Picarro, which was developing a laser-based breath analyzer for early detection of ulcers.

He’s written more than 300 papers and is funded by various organizations including the Defense Advanced Research Projects Agency, Office of Naval Research, Air Force and NASA.

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