Photo-Excited Processes, Diagnostics and Applications
DOI: 10.1007/1-4020-2610-2_5
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Models for Laser Ablation

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“…The first treatments of organic matrices by irradiation with a UV laser were published in the 1980s. [ 10,11 ] Taking into account the material absorption coefficient, [ 12 ] the treated area of the material is of the order of several multiple wavelengths. [ 13‐15 ] It is, thus, possible to precisely control the ablation depth by the exposure time or the number of pulses.…”
Section: Introductionmentioning
confidence: 99%
“…The first treatments of organic matrices by irradiation with a UV laser were published in the 1980s. [ 10,11 ] Taking into account the material absorption coefficient, [ 12 ] the treated area of the material is of the order of several multiple wavelengths. [ 13‐15 ] It is, thus, possible to precisely control the ablation depth by the exposure time or the number of pulses.…”
Section: Introductionmentioning
confidence: 99%
“…It is virtually impossible for a femtosecond-scale process (or even picosecond) such as the ultrashort laser-pulse-induced damage threshold mechanism described above to explain the accumulative process which occurs at the scale of milliseconds. A general comprehensive theory has yet to be developed, but qualitatively, the decrease in the damage threshold with multi-pulse irradiation was attributed to the accumulation of laser-induced chemical and structural changes of the material, plastic deformation of the surface [10, 14] , thermal or bulk photo-thermal model [35] . Other models [3638] explain the incubation effect [39] by accumulation of occupied defect and mid-gap trap states during the pulse train, since the relaxation of electrons from defect states to the valence band is on a time scale of milliseconds.…”
Section: Introductionmentioning
confidence: 99%