Spatial and temporal distribution of metal atoms and their diatomic oxide molecules in femtosecond laser-induced plasmas

We investigate the distribution of atoms and diatomic metal-oxide molecules in femtosecond laser-induced plasmas generated at and after the laser beam focal plane, where non-linear phenomena give rise to the formation of a weakly ionized air plasma channel. We use direct plasma imaging and optical e...

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Veröffentlicht in:	Journal of analytical atomic spectrometry 2018-11, Vol.33 (11), p.1875-1883
Hauptverfasser:	Lee, Yonghoon, Mao, Xianglei, Chan, George C.-Y, Gonzalez, Jhanis, Russo, Richard E, Zorba, Vassilia
Format:	Artikel
Sprache:	eng
Schlagworte:	Air plasma Chemical separation Emission analysis Focal plane Laser beams Laser plasmas Lasers Metal oxides Nonlinear phenomena Optical emission spectroscopy Organic chemistry Plasma Temporal distribution
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container_end_page	1883
container_issue	11
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container_title	Journal of analytical atomic spectrometry
container_volume	33
creator	Lee, Yonghoon Mao, Xianglei Chan, George C.-Y Gonzalez, Jhanis Russo, Richard E Zorba, Vassilia
description	We investigate the distribution of atoms and diatomic metal-oxide molecules in femtosecond laser-induced plasmas generated at and after the laser beam focal plane, where non-linear phenomena give rise to the formation of a weakly ionized air plasma channel. We use direct plasma imaging and optical emission spectroscopy to study plasma expansion, and the associated physical and chemical separation processes. Plasma splitting occurs upon the interaction of the weakly ionized plasma with the sample and is accompanied by a change in the spatio-temporal distribution of the molecules and atoms compared to sampling at the focus. Furthermore, molecular emission is favored at specific locations and is enhanced over atomic emission as the sample is moved underneath the laser focus. These findings support the ability to enhance or impede the formation of molecular versus atomic species at specific spatio-temporal locations in the laser-induced plasma. Distribution of atoms and diatomic metal oxide molecules in femtosecond laser-induced plasmas generated at and after the laser beam focal plane, where nonlinear phenomena give rise to the formation of weakly ionized air plasma channels.
doi_str_mv	10.1039/c8ja00150b
format	Article
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We use direct plasma imaging and optical emission spectroscopy to study plasma expansion, and the associated physical and chemical separation processes. Plasma splitting occurs upon the interaction of the weakly ionized plasma with the sample and is accompanied by a change in the spatio-temporal distribution of the molecules and atoms compared to sampling at the focus. Furthermore, molecular emission is favored at specific locations and is enhanced over atomic emission as the sample is moved underneath the laser focus. These findings support the ability to enhance or impede the formation of molecular versus atomic species at specific spatio-temporal locations in the laser-induced plasma. Distribution of atoms and diatomic metal oxide molecules in femtosecond laser-induced plasmas generated at and after the laser beam focal plane, where nonlinear phenomena give rise to the formation of weakly ionized air plasma channels.</abstract><cop>London</cop><pub>Royal Society of Chemistry</pub><doi>10.1039/c8ja00150b</doi><tpages>9</tpages><orcidid>https://orcid.org/0000-0003-3498-5314</orcidid><oa>free_for_read</oa></addata></record>
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source	Royal Society Of Chemistry Journals; Alma/SFX Local Collection
subjects	Air plasma Chemical separation Emission analysis Focal plane Laser beams Laser plasmas Lasers Metal oxides Nonlinear phenomena Optical emission spectroscopy Organic chemistry Plasma Temporal distribution
title	Spatial and temporal distribution of metal atoms and their diatomic oxide molecules in femtosecond laser-induced plasmas
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