Emission following laser-induced breakdown spectroscopy of organic compounds in ambient air

Alexander Portnov; Salman Rosenwaks; Ilana Bar

doi:10.1364/AO.42.002835

Applied Optics
Vol. 42,
Issue 15,
pp. 2835-2842
(2003)
•https://doi.org/10.1364/AO.42.002835

Emission following laser-induced breakdown spectroscopy of organic compounds in ambient air

Alexander Portnov, Salman Rosenwaks, and Ilana Bar

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Alexander Portnov, Salman Rosenwaks, and Ilana Bar, "Emission following laser-induced breakdown spectroscopy of organic compounds in ambient air," Appl. Opt. 42, 2835-2842 (2003)

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Abstract

Laser-induced breakdown spectroscopy (LIBS) was applied to nitroaromatic (NC) and polycyclic aromatic hydrocarbon (PAH) samples in ambient air to characterize their resultant emission. Compounds covering various surfaces were ablated by use of the second (532-nm) or the fourth (266-nm) harmonic of a nanosecond pulsed Nd:YAG laser. The emission consisted of spectral features related mostly to CN and C₂ molecular fragments and to C, H, N, and O atomic fragments. The transitions of the molecular fragments correspond to the CN (B ²∑⁺-X ²∑⁺) violet system and the C₂ (d ³Π_g-a ³Π_u) Swan system; the intensity of the former is higher in NCs than in PAHs. The intensity ratios between C₂ and CN and between O and N correlate to the molecular structure, suggesting the possibility of distinguishing one chemical class from another and in optimum cases even identifying specific compounds by use of LIBS.

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Wavelength (nm)	Line	Configuration	Transition Probability (10⁷s^-1)
844.62	O(I)	2p ³3p(³ P ₀)-2p ³3s(³ S ₁)	3.22
844.64	O(I)	2p ³3p(³ P ₁)-2p ³3s(³ S ₂)	3.22
844.68	O(I)	2p ³3p(³ P ₁)-2p ³3s(³ S ₁)	3.22
867.61	N(II)	2p ⁵ s(³ P ₂)-2p ⁴ p(³ D ₃)	2.55
868.03	N(I)	2p ²3p(⁴ D _7/2)-2p ²3s(⁴ P _5/2)	2.46
868.34	N(I)	2p ²3p(⁴ D _5/2)-2p ²3s(⁴ P _3/2)	1.80
868.61	N(I)	2p ²3p(⁴ D _3/2)-2p ²3s(⁴ P _1/2)	1.09

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