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Investigation of Background Signals from Na as a Source of Interference in Laser-Enhanced Ionization Spectrometry in Flames

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Laser-Enhanced Ionization (LEI) signals from Na have been investigated by the one-step excitation scheme in flames in the UV region (220-410 nm). This knowledge is of importance for the applicability of the LEI technique since Na often exists as a matrix in a number of samples and gives rise to background signals. In the wavelength region between 220 and 240 nm, photoionization of ground-state atoms is responsible for the LEI signal. Between 240 and approximately 300 nm, the LEI signal originates mainly from wing-excitations of the ordinary 3s-np (n ≥ 5) transitions. Finally, in the wavelength region above the 3s-4p transition (i.e., approximately 360-410 nm), the LEI signal consists mainly of photoionization of the thermally excited 3p state. A theoretical treatment of the various contributions shows good agreement with experiments. It is furthermore found that the LEI sensitivity at 408 nm (the threshold wavelength for photoionization of atoms in the first excited state, the 3p state) is 50 times smaller than the LEI sensitivity at 240 nm (the threshold wavelength for photoionization of ground-state atoms). The selectivity between analyte atoms (Bi and Pb in the present study) and Na is also studied. It is shown that the analyte-versus-Na selectivity decreases considerably as a function of increased laser intensity. It is concluded that there exists an optimum laser intensity for the most efficient detection of a particular element in a certain Na matrix. This optimum intensity, however, is determined by factors which are specific to each experimental setup.

Keywords: Intereference; Laser-enhanced ionization; Na; Photoionization; Spectroscopic techniques

Document Type: Research Article


Affiliations: 1: Department of Physics, Chalmers University of Technology, S-412 96 Göteborg, Sweden 2: Department of Physics, University of Queensland, St. Lucia, Brisbane, Queensland, Australia 4067

Publication date: August 1, 1990

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