Issue 5, 2022

Metastable states in sputtered sample atoms: a tutorial review in perspective of elementary plasma processes

Abstract

In glow discharge (GD) plasma, the excitation/ionization of sputtered, analytically interesting atoms can occur by collisional interaction of the ground state of sputtered atoms M(g) with the plasma particles (such as electrons and excited atoms/ions of plasma gas). Similarly, the excitation/ionization of sputtered atoms can also occur by collisional interaction of the metastable states of sputtered atoms M(m) and plasma particles. Thus, the M(m) can provide an alternative imperative route of excitation/ionization for sputtered atoms of elements in the plasma. The excitation/ionization via M(m) can be particularly important for selective plasma processes, such as asymmetric charge transfer and Penning excitation. Extensive work has been done in analytical GDs regarding metastable states of plasma gases I(m). However, so far, very modest effort has been extended in the direction of the M(m). Knowledge of the cross-sections and rate constants of various collisional processes en-route of the M(m) are valuable to provide broad physical data as input for theoretical calculations of ionization rates and accurate prediction of relative sensitive factors in mass spectrometry. All of these factors make it extremely important that detailed information about the metastable states of the analyte atoms is available. In this tutorial review paper, the metastable states of analyte atoms, types of metastability, populating/depopulating collisional and radiative processes, and their stringent role in the gas-phase collisional processes are reported and critically discussed in detail.

Graphical abstract: Metastable states in sputtered sample atoms: a tutorial review in perspective of elementary plasma processes

Article information

Article type
Tutorial Review
Submitted
06 Jan 2022
Accepted
10 Mar 2022
First published
30 Mar 2022

J. Anal. At. Spectrom., 2022,37, 985-993

Metastable states in sputtered sample atoms: a tutorial review in perspective of elementary plasma processes

S. Mushtaq, J. Anal. At. Spectrom., 2022, 37, 985 DOI: 10.1039/D2JA00004K

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