NRL Raman SWOrRD speeds environmental and battlefield sensing

Feb. 16, 2010
Washington, DC--NRL researchers are developing a device to enable rapid detection of bacteria, chemicals, and explosives with a new device called the Swept Wavelength Optical resonant-Raman Device (SWOrRD).

Washington, DC--Researchers at the Naval Research Laboratory (NRL) (www.nrl.navy.mil) are developing a device to enable rapid detection and identification of bacteria, chemicals, and explosives in the environment or on the battlefield with a new device called the Swept Wavelength Optical resonant-Raman Device (SWOrRD), which illuminates a sample with a sequence of as many as 100 laser wavelengths and measures the spectrum of light scattered from the sample at each laser wavelength. The assembly of scattered light-spectra constitutes a two-dimensional (2D) signature of the sample from which the components of the sample can be determined, with an appropriate algorithm. A code to perform an identification in near real-time is also being developed at NRL.

According to NRL’s Dr. Jacob Grun, the research team leader, “When the laser wavelengths resonate with chemical bonds of the sample being examined, then light scattered at each wavelength contains additional information about the sample's identity. The 2D signature, rich in such information, helps to identify the sample's components even when a number of different chemicals or bacteria are mixed within that sample, as they normally would be in the environment or battlefield. This is much more difficult to do if only a single laser wavelength is used for illumination. SWOrRD also opens the possibility that a single detector can be used to identify biological agents as well as chemicals and explosives.”

During their studies, the NRL research team measured 2D spectra of five bacterial species and five explosives and showed the distinguishability of the signatures. The team was able to show that bacteria with similar RNA sequences were distinguishable by this method. The team then used the new technique to measure 2D signatures of potential environmental interferents, also with positive results.

The researchers are members of the NRL’s Plasma Physics Division, the Remote Sensing Division, the Center for Bio/Molecular Science and Engineering, and Research Support Instruments Inc.; and are sponsored by the Defense Joint Science and Technology Office/Defense Threat Reduction Agency (JSTO/DTRA).

--Posted by Gail Overton; [email protected]; www.laserfocusworld.com.

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