Publication detail
Femtosecond laser ablation elemental mass spectrometry
HERGENRODER, R. SAMEK, O. HOMMES, V.
Czech title
Hmotová spektrometrie využitím femtoskundového ablačního laseru
English title
Femtosecond laser ablation elemental mass spectrometry
Type
journal article - other
Language
en
Original abstract
Laser ablation mass spectrometry (LA-MS) has always been an interesting method for the elemental analysis of solid samples. Chemical analysis with a laser requires small amounts of material. Depending on the analytical detection system, subpicogram quantities may be sufficient. In addition, a focused laser beam permits the spatial characterization of heterogeneity in solid samples typically with micrometer resolution in terms of lateral and depth dimensions. With the advent of high-energy, ultra-short pulse lasers, new possibilities arise. The task of this review is to discuss the principle differences between the ablation process of short (> 1 ps) and ultra-short (< 1 ps) pulses. Based on the timescales and the energy balance of the process that underlies an ablation event, it will be shown that ultra-short pulses are less thermal and cause less collateral damages than longer pulses. The confinement of the pulse energy to the focal region guarantees a better spatial resolution in all dimensions and improves the analytical figures of merit (e.g., fractionation). Applications that demonstrate these features and that will be presented are in-depth profiling of multi-layer samples and the elemental analysis of biological materials.
Czech abstract
Článek pojednává o hmotové spektrometrie využitím femtoskundového ablačního laseru.
English abstract
Laser ablation mass spectrometry (LA-MS) has always been an interesting method for the elemental analysis of solid samples. Chemical analysis with a laser requires small amounts of material. Depending on the analytical detection system, subpicogram quantities may be sufficient. In addition, a focused laser beam permits the spatial characterization of heterogeneity in solid samples typically with micrometer resolution in terms of lateral and depth dimensions. With the advent of high-energy, ultra-short pulse lasers, new possibilities arise. The task of this review is to discuss the principle differences between the ablation process of short (> 1 ps) and ultra-short (< 1 ps) pulses. Based on the timescales and the energy balance of the process that underlies an ablation event, it will be shown that ultra-short pulses are less thermal and cause less collateral damages than longer pulses. The confinement of the pulse energy to the focal region guarantees a better spatial resolution in all dimensions and improves the analytical figures of merit (e.g., fractionation). Applications that demonstrate these features and that will be presented are in-depth profiling of multi-layer samples and the elemental analysis of biological materials.
Keywords in English
femtosecond laser; laser ablation; time-of-flight; inductively coupled plasma mass spectrometry
RIV year
2006
Released
01.06.2006
ISSN
0277-7037
Journal
Mass Spectrometry Reviews
Volume
25
Number
4
Pages from–to
21–25
Pages count
6
BIBTEX
@article{BUT43554,
author="Ota {Samek},
title="Femtosecond laser ablation elemental mass spectrometry",
journal="Mass Spectrometry Reviews",
year="2006",
volume="25",
number="4",
month="June",
pages="21--25",
issn="0277-7037"
}