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Single laser based dual-wavelength ablation technique for emission enhancement during LIBS
Published in
2012
Volume: 45
   
Issue: 36
Abstract
In this paper, a novel method of the dual-wavelength (laser-induced breakdown spectroscopy LIBS) technique using a single laser system is proposed and demonstrated. Experiments are performed using a pulsed Nd 3+:YAG laser with a pair of 355-1064nm and also with 532-1064nm. The shorter wavelength laser is used for ablation and plasma formation, and the fundamental wavelength (1064nm) is used for plasma re-excitation. The proposed dual-wavelength LIBS technique is used for lunar simulant samples under different ambient pressure conditions. Various characteristic parameters, such as the emission line-intensity enhancement, plasma temperature, lifetime and plasma area, are studied. Experimental studies clearly showed the emission line-intensity enhancement up to a factor of 3. Emission lifetime showed a longer sustained emission with an increase of up to 33% for the dual-wavelength approach. A theoretical simulation based on the hydrodynamic equations is also performed for dual-wavelength ablation and re-excitation. The estimated plasma temperature and ablation plume-front velocity clearly showed an increase in dual wavelength, which is in agreement with the experimental results. © 2012 IOP Publishing Ltd.
About the journal
JournalJournal of Physics D: Applied Physics
ISSN00223727
Open AccessNo
Concepts (19)
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    Ambient pressures
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    Characteristic parameter
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    DUAL-WAVELENGTH
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    Emission enhancement
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    EMISSION LIFETIME
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    Experimental studies
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    FUNDAMENTAL WAVELENGTH
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    HYDRODYNAMIC EQUATIONS
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    LUNAR SIMULANT
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    Plasma formations
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    Plasma temperature
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    Shorter wavelength
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    SINGLE LASERS
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    Theoretical simulation
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    Ablation
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    Atomic emission spectroscopy
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    Electromagnetic wave emission
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    Plasmas
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    Laser excitation