Kristine L. Eland scite author profile

In this paper we report the first observations of dual-pulse laser-induced breakdown spectroscopy (LIBS) signal enhancements by using a pre-ablation spark. In this technique a laser pulse is brought in parallel to the sample surface and focused a few millimeters above it to form an air plasma or air spark. A few microseconds later a second laser pulse, which is focused on the sample, ablates sample material and forms the LIBS plasma from which analyte emission occurs. In this way, large LIBS signal enhancements, 11-to 33-fold, are observed for copper and lead, respectively, relative to the signal in the absence of the air spark. In all cases where enhanced LIBS signals are seen, greatly enhanced sample ablation also occurs.

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Effect of Pulse Delay Time on a Pre-Ablation Dual-Pulse LIBS Plasma

Stratis

2001

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In this paper, we investigate the effect of dual-pulse timing on material ablation, plasma temperature, and plasma size for pre-ablation spark dual-pulse laser-induced breakdown spectroscopy (LIBS). Although the plasma temperature increases for dual-pulse excitation, the signal enhancement is most easily attributed to increased sample ablation. Plasma images show that the magnitude of the enhancement can be affected by the collection optic and by the collection geometry. Enhancements calculated using the total integrated intensity of the plasma are comparable to those measured using fiber-optic collection.

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LIBS using dual- and ultra-short laser pulses

Angel

Stratis

Eland

et al. 2001

Fresenius' Journal of Analytical Chemistry

136

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Enhancement of Aluminum, Titanium, and Iron in Glass Using Pre-Ablation Spark Dual-Pulse LIBS

2000

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In this paper, we report the rst enhanced emission for elements in a nonmetal or nonconducting matrix, glass, with the use of a preablation spark. The glass samples used in this work are prototypes of samples used to immobilize inorganic waste at the Savannah River Site Vitri cation Facility. We have found that using a pre-ablation spark results in larger signal enhancements, 11-to 20-fold for titanium, aluminum, and iron in glass compared to the m etal under the same experim ental conditions. W e also demonstrate that this method is more sensitive than single-pulse LIBS experiments for the direct solid sampling of vitri ed waste glass.

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Energy Dependence of Emission Intensity and Temperature in a LIBS Plasma Using Femtosecond Excitation

et al. 2001

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In this paper, we investigate the effect of laser energy on laser-induced breakdown emission intensity and average temperature in a short-pulse plasma generated by using 140 fs laser excitation. Both line emission and continuum background intensity and plasma temperature decrease very rapidly after excitation compared to the more conventional nanosecond pulse excitation. Both emission intensity and plasma temperature increase with increasing laser energy. However, the intensity increase appears to be mostly related to the amount of material ablated. Also, nongated laser-induced breakdown spectroscopy (LIBS) is demonstrated using a high-pulse (1 kHz) pulse repetition rate.

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Kristine L. Eland

Dual-Pulse LIBS Using a Pre-Ablation Spark for Enhanced Ablation and Emission

Effect of Pulse Delay Time on a Pre-Ablation Dual-Pulse LIBS Plasma

LIBS using dual- and ultra-short laser pulses

Enhancement of Aluminum, Titanium, and Iron in Glass Using Pre-Ablation Spark Dual-Pulse LIBS

Energy Dependence of Emission Intensity and Temperature in a LIBS Plasma Using Femtosecond Excitation

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