Generation of coherent tunable deep UV radiation for detection and absorption studies of explosives RDX and TNT

Abstract

We report a technique for the efficient generation of tunable coherent deep UV radiation and its application in studies of RDX and TNT at the ppm level on the basis of their absorption characteristics. The obtained experimental absorption data are compared with conventional spectrophotometric data. The UV radiation in the range 200-260 nm has been generated by the type-I noncollinear third harmonic of the dye laser radiation (600-700 nm) and also by sum frequency mixing (SFM) of Nd:YAG output (1064 nm) with the second harmonic of the dye laser in β-barium borate (BBO) crystal. The maximum conversion efficiency of the generated signal is estimated to be 57.5% at λ = 218.9 nm wavelength. Apart from measurements of the absorbance of RDX and TNT at different concentrations in their respective solutions, the minimum detection concentrations have also been ascertained. The estimated minimum detectable concentration of RDX is 8.47•10-9 M, whereas that for TNT is 35.7•10-9 M. The data were obtained using only ∼100 μJ/pulse of laser energy. © 2007 Springer Science+Business Media, Inc.