1999
Characterization of acoustic signals produced by ultraviolet laser ablation inductively coupled plasma atomic emission spectrometry
KANICKÝ, Viktor, Vítězslav OTRUBA a Jean-Michel MERMETZákladní údaje
Originální název
Characterization of acoustic signals produced by ultraviolet laser ablation inductively coupled plasma atomic emission spectrometry
Název česky
Charakterizace akustických signálů vznikajících při ablaci ultrafialovým laserem - analýza LA-ICP-OES
Autoři
KANICKÝ, Viktor (203 Česká republika, garant), Vítězslav OTRUBA (203 Česká republika) a Jean-Michel MERMET (250 Francie)
Vydání
Fresenius Journal of Analytical Chemistry, Berlin, Springer-Verlag, 1999, 0937-0633
Další údaje
Jazyk
angličtina
Typ výsledku
Článek v odborném periodiku
Obor
10406 Analytical chemistry
Stát vydavatele
Německo
Utajení
není předmětem státního či obchodního tajemství
Impakt faktor
Impact factor: 1.428
Organizační jednotka
Přírodovědecká fakulta
UT WoS
000078895300003
Klíčová slova anglicky
laser ablation; ultraviolet laser; ICP spectrometry; acoustic signal
Příznaky
Mezinárodní význam, Recenzováno
Změněno: 29. 6. 2007 10:10, prof. RNDr. Viktor Kanický, DrSc.
V originále
A simple device was designed to measure the acoustic signal accompanying laser ablation. The potential use of this signal for laser ablation-inductively coupled plasma atomic emission was examined. A frequency quadrupled pulsed Nd:YAG laser radiation was used for the ablation of glass, steel and ceramic samples. The relation between the acoustic signal, the laser energy, the analyte signal and the amount of ablated material was studied and evidence of the use of the acoustic signal for the exact focusing of the laser beam onto the sample surface was given. A more intense acoustic signal was observed for the exact focusing with a formation of larger ablation craters in glass and ceramics.
Česky
A simple device was designed to measure the acoustic signal accompanying laser ablation. The potential use of this signal for laser ablation-inductively coupled plasma atomic emission was examined. A frequency quadrupled pulsed Nd:YAG laser radiation was used for the ablation of glass, steel and ceramic samples. The relation between the acoustic signal, the laser energy, the analyte signal and the amount of ablated material was studied and evidence of the use of the acoustic signal for the exact focusing of the laser beam onto the sample surface was given. A more intense acoustic signal was observed for the exact focusing with a formation of larger ablation craters in glass and ceramics.