Publication detail

Spatiotemporal diagnostics of laser induced plasma of potassium gallosilicate zeolite

CAMACHO, J. VRÁBEL, J. MANZOOR, S. PÉREZ-ARRIBAS, L. DELGADO DÍAZ, S. CÁCERES, J.

Original Title

Spatiotemporal diagnostics of laser induced plasma of potassium gallosilicate zeolite

Type

journal article in Web of Science

Language

English

Original Abstract

The present work focuses on the analysis of laser induced plasma of a zeolite sample to study its spatial and temporal evolution. Plasmas were induced by focusing a high-peak power IR CO2 pulsed laser at 10.6 μm and irradiance 6.3 GW cm−2 onto a sample under 0.01 Pa vacuum, which produced special conditions allowing the detection of species in high ionization states and velocities. In this study, high spatial, temporal and spectral resolution was obtained using imaging by an optical emission spectroscopy method, namely, laser induced breakdown spectroscopy. In addition, this work introduces the possibility of studying the early stages of plasma evolution. The induced plasma shows electronically excited neutral K, Ga, Si and O atoms and ionized K+, Ga+, Ga2+, Si+, Si2+, Si3+, O+, O2+, and O3+ species. Time-resolved two-dimensional spectra, which were also spatially resolved, were used to study the expanded distribution of some species ejected during ablation. Spatial and temporal variations of different atoms and excited ionic species are reported. Decreasing electron densities in the order of 1017 to 1016 cm−3 at 2 mm from the target surface were measured using Stark broadening in the plasma lifetime of 4 μs. The measured temperature range of electrons is 35 000 to 5800 K within the first 5 μs after initiation of optical breakdown and for the supposed local thermodynamic equilibrium of the plume at a distance of 2 mm from the target.

Keywords

Laser Induced Plasma, LIP, LIBS, Zeolite-like potassium gallosilicate, spatio-temporal plasma evolution

Authors

CAMACHO, J.; VRÁBEL, J.; MANZOOR, S.; PÉREZ-ARRIBAS, L.; DELGADO DÍAZ, S.; CÁCERES, J.

Released

25. 4. 2019

Publisher

Royal Society of Chemistry

Location

Great Britain

ISBN

1364-5544

Periodical

Journal of Analytical Atomic Spectrometry

Year of study

6

Number

34

State

United Kingdom of Great Britain and Northern Ireland

Pages from

1247

Pages to

1255

Pages count

9

URL

BibTex

@article{BUT159095,
  author="J.J. {Camacho} and Jakub {Vrábel} and Sadia {Manzoor} and L.V. {Pérez-Arribas} and Sara {Delgado Díaz} and Jorge {Cáceres}",
  title="Spatiotemporal diagnostics of laser induced plasma of potassium gallosilicate zeolite",
  journal="Journal of Analytical Atomic Spectrometry",
  year="2019",
  volume="6",
  number="34",
  pages="1247--1255",
  doi="10.1039/C9JA00052F",
  issn="1364-5544",
  url="https://pubs.rsc.org/en/content/articlelanding/2019/JA/C9JA00052F#!divAbstract"
}