Add to ORKGWe report on aspects of resonant laser ablation (RLA) behavior for a number of sample types: metals, alloys, thin films, zeolites and soil. The versatility of RLA is demonstrated, with results on a variety of samples and in several mass spectrometers. In addition, the application to depth profiling of thin films is described; absolute removal rates and detection limits are also displayed. A discussion of possible mechanisms for low-power ablation is presented
Laser ablation is becoming a dominant technology for direct solid sampling in analytical chemistry. ...
The pulsed ultraviolet (#lambda# = 193, 248 nm) laser ablation of graphite, polycrystalline diamond ...
This work offers a novel approach to the investigation of material response in nanosecond laser abla...
The goal of traditional laser ablation solid sampling is to produce a gaseous plume of material with...
Laser ablation refers to the explosive process by which a solid sample is vaporized though a violent...
An enhancement of several orders of magnitude in the laser ablation signal of Al, Ga and Ca was obse...
Aluminium thin films on glass substrates have been ablated by a pulsed Nd:YAG laser (wavelength 532 ...
This presentation will focus on current work in the Ames Laboratory where laser ablation is being us...
Laser Ablation provides a broad picture of the current understanding of laser ablation and its many ...
Laser ablation refers to the phenomenon in which an intense laser beam irradiates the surface of a s...
Ablative laser technology (LA-ICP-MS) of solid samples is gaining popularity as a contemporary analy...
The various mechanisms by which ablation of materials can be induced with lasers are discussed in th...
Laser processing and laser ablation are the subject of fascinating fundamental studies and are used ...
Laser ablation refers to the phenomenon in which a low wavelength and short pulse (ns-fs) duration o...
With the long-term goal in mind of investigating if one could possibly design a 'universal solid-sam...
Laser ablation is becoming a dominant technology for direct solid sampling in analytical chemistry. ...
The pulsed ultraviolet (#lambda# = 193, 248 nm) laser ablation of graphite, polycrystalline diamond ...
This work offers a novel approach to the investigation of material response in nanosecond laser abla...
The goal of traditional laser ablation solid sampling is to produce a gaseous plume of material with...
Laser ablation refers to the explosive process by which a solid sample is vaporized though a violent...
An enhancement of several orders of magnitude in the laser ablation signal of Al, Ga and Ca was obse...
Aluminium thin films on glass substrates have been ablated by a pulsed Nd:YAG laser (wavelength 532 ...
This presentation will focus on current work in the Ames Laboratory where laser ablation is being us...
Laser Ablation provides a broad picture of the current understanding of laser ablation and its many ...
Laser ablation refers to the phenomenon in which an intense laser beam irradiates the surface of a s...
Ablative laser technology (LA-ICP-MS) of solid samples is gaining popularity as a contemporary analy...
The various mechanisms by which ablation of materials can be induced with lasers are discussed in th...
Laser processing and laser ablation are the subject of fascinating fundamental studies and are used ...
Laser ablation refers to the phenomenon in which a low wavelength and short pulse (ns-fs) duration o...
With the long-term goal in mind of investigating if one could possibly design a 'universal solid-sam...
Laser ablation is becoming a dominant technology for direct solid sampling in analytical chemistry. ...
The pulsed ultraviolet (#lambda# = 193, 248 nm) laser ablation of graphite, polycrystalline diamond ...
This work offers a novel approach to the investigation of material response in nanosecond laser abla...