@article{25179, keywords = {Size distribution, Aerosol, Particle, Particles, Measurements, Measurement, USA, Pulse, Ablation, Laser, Laser ablation, Laser ablation, Intensities, Intensity, Time, Ca, E, Icp-ms, Inductively coupled plasma (icp), Inductively-coupled plasma, Mass, Mass spectrometer, Mass spectrometer, Plasma, Samples, Spectrometer, Atomic emission spectroscopy, Brass, Lasers, Parameters, Pulses, Signal, Single, Vapor, Alloy, Alloys, Femtosecond, Nanosecond, Sem, Separation, Duration, Electron, Pulse duration, Dc, Size, Femtosecond laser, Nanosecond laser, Microprobe, Ms, Plasma-mass spectrometry, Femtosecond laser ablation, Silicon, Diameter, Nanometer, Substrate, Substrates, Distribution, Particle-size, Chemistry, Aerosol-particles, Elemental fractionation, Femtosecond ablation, Operating parameters, Particulates, Silicon substrate, Stabilities, Stability}, author = {Chunyi Liu and Xianglei Mao and Samuel S Mao and Xianzhong Zeng and Ralph Greif and Richard E Russo}, title = {Nanosecond and femtosecond laser ablation of brass: Particulate and ICPMS measurements}, abstract = {

Femtosecond and nanosecond lasers were compared for ablating brass alloys. All operating parameters from both lasers were equal except for the pulse duration. The ablated aerosol vapor was collected on silicon substrates for particle size measurements or sent into an inductively coupled plasma mass spectrometer. The diameters and size distribution of particulates were measured from scanning electron microscope (SEM) images of the collected ablated aerosol. SEM measurements showed that particles ablated using nanosecond pulses were single spherical entities ranging in diameter from several micrometers to several hundred nanometers. Primary particles ablated using femtosecond ablation were similar to100 am in diameter but formed large agglomerates. ICPMS showed enhanced signal intensity and stability using femtosecond compared to nanosecond laser ablation

}, year = {2004}, journal = {Analytical Chemistry}, volume = {76}, number = {2}, pages = {379-383}, note = {

LBNL-54108 NOT IN FILE

}, language = {eng}, }