Effect of atmosphere on collinear double-pulse laser-induced breakdown spectroscopy

Double-pulse laser-induced breakdown spectroscopy (DP-LIBS) has been shown to enhance LIBS spectra. Several researchers have reported significant increases in signal-to-noise and/or spectral intensity compared to single-pulse (SP) LIBS. In addition to DP-LIBS, atmospheric conditions can also increas...

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Bibliographic Details
Published in:Analytical and bioanalytical chemistry 2011-07, Vol.400 (10), p.3217-3227
Main Authors: Effenberger, Andrew J., Scott, Jill R.
Format: Article
Language:English
Subjects:
AIR
Analytical Chemistry
Argon
Atmosphere
ATMOSPHERIC PRESSURE
Atmospherics
Barometric pressure
Biochemistry
BRASS
BREAKDOWN
Characterization and Evaluation of Materials
Chemistry
Chemistry and Materials Science
Comparative analysis
Copper
Delay
Double Pulse
Food Science
Helium
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
Laboratory Medicine
LASERS
LIBS
Mathematical analysis
Monitoring/Environmental Analysis
Original Paper
OTHER INSTRUMENTATION
Plasma temperature
Single Pulse
SPECTRA
SPECTROSCOPY
Spectrum analysis
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Summary:Double-pulse laser-induced breakdown spectroscopy (DP-LIBS) has been shown to enhance LIBS spectra. Several researchers have reported significant increases in signal-to-noise and/or spectral intensity compared to single-pulse (SP) LIBS. In addition to DP-LIBS, atmospheric conditions can also increase sensitivity. Thus, in this study, a collinear DP-LIBS scheme was used along with manipulation of the atmospheric conditions. The DP-LIBS scheme consisted of an initial 45-mJ pulse at 1,064-nm fired into a sample contained in a controlled atmospheric/vacuum chamber. A second analytical 45-mJ pulse at 1,064-nm was then fired 0 to 200 μs after and along the same path of the first pulse. Ar, He, and air at pressures ranging from atmospheric pressure to 1 Torr are introduced during DP-LIBS and SP-LIBS experiments. For a brass sample, significant increases in the spectral intensities of Cu and Zn lines were observed in DP-LIBS under Ar compared to DP-LIBS in air. It was also found that Cu and Zn lines acquired with SP-LIBS in Ar are nearly as intense as DP-LIBS in air. While collinear DP-LIBS is effective for increasing the sensitivity for some reduced atmospheres (i.e., Ar and air at 630 to 100 Torr and He at 300 Torr), the enhanced spectral intensity ultimately dropped off as the pressure was reduced below 10 Torr for all atmospheric compositions in the experimental arrangement used in this study. At all pressures of air and Ar, the plasma temperature remained rather constant with increased inter-pulse delays; however, the plasma temperature was more variable for different He gas pressures and inter-pulse delays. Figure Illustration of the dependence of DP-LIBS signal intensity with changes in buffer gas composition
ISSN:1618-2642
1618-2650
DOI:10.1007/s00216-011-5034-z