New sensor detects gaseous chemical weapon surrogates in 45 seconds

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A conceptual prototype of Pacific Northwest National Laboratorys Quartz Vibrational Resonator Laser Photo-acoustic Sensing technology. The prototype includes 10 pairs of quantum cascade lasers and tuning forks in a box that is 12 inches long 12 inche ...
A conceptual prototype of Pacific Northwest National Laboratory's Quartz Vibrational Resonator Laser Photo-acoustic Sensing technology. The prototype includes 10 pairs of quantum cascade lasers and tuning forks in a box that is 12 inches long, 12 inches wide and 6 inches high. The full case would weigh less than 15 pounds. The technology can detect gaseous nerve agent surrogates, at the sub-part-per-billion level, in less than one minute. Credit: Pacific Northwest National Laboratory

Using lasers and tuning forks, researchers at Pacific Northwest National Laboratory have developed a chemical weapon agent sensing technique that promises to meet or exceed current and emerging defense and homeland security chemical detection requirements. The technique, called Quartz Laser Photo-Acoustic Sensing, or "QPAS," is now ready for prototyping and field testing.


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