DocumentCode
2931119
Title
X-ray emission from femtosecond laser micromachining
Author
Thogersen, J. ; Borowiec, A. ; Haugen, H.K. ; McNeill, F.E. ; Stronach, I.M.
Author_Institution
Brockhouse Inst. for Mater. Res., McMaster Univ., Hamilton, Ont., Canada
fYear
2000
fDate
7-12 May 2000
Firstpage
616
Lastpage
617
Abstract
Summary form only given. Ultrafast lasers are rapidly becoming important tools in the micromachining and microprocessing of solids. Extremely short laser light pulses in the femtosecond regime lead to qualitatively different interactions with solids compared with light pulses of much longer duration. Pulse energies from high-repetition-rate solid state lasers deployed in femtosecond laser machining commonly range from /spl sim/0.1 /spl mu/J to /spl sim/1 mJ; with typical repetition rates in the 1-250 kHz regime. Focussing these light pulses to small spot sizes lead to very high peak intensities (/spl sim/10/sup 14/-10/sup 16/ W/cm/sup 2/), even for relatively compact (amplified) micromachining lasers. The characterization of hard photon emission, including in the X-ray region, is important for laser plasma characterization as well as in terms of workplace environmental considerations. Our investigations utilized an amplified Ti:sapphire laser system with pulses of 120 fs duration, up to 300 /spl mu/J in pulse energy, and operating at a 1 kHz repetition rate.
Keywords
X-ray production; high-speed optical techniques; laser beam machining; laser beams; laser materials processing; micromachining; optical focusing; sapphire; solid lasers; titanium; 0.1 muJ to 1 mJ; 1 kHz; 1 to 250 kHz; 120 fs; 300 muJ; Al/sub 2/O/sub 3/:Ti; Ti:sapphire laser; X-ray emission; X-ray region; amplified laser system; amplified micromachining lasers; femtosecond laser machining; femtosecond laser micromachining; femtosecond regime; hard photon emission; high peak intensities; high-repetition-rate solid state lasers; laser light pulses; laser plasma characterization; light pulses; micromachining; microprocessing; pulse duration; pulse energies; pulse energy; relatively compact micromachining lasers; repetition rate; repetition rates; small spot sizes; solids; ultrafast lasers; workplace environmental considerations; Ceramics; Electron emission; Laser ablation; Micromachining; Morphology; Optical pulses; Pulse amplifiers; Pulse measurements; Solid lasers; X-ray lasers;
fLanguage
English
Publisher
ieee
Conference_Titel
Lasers and Electro-Optics, 2000. (CLEO 2000). Conference on
Conference_Location
San Francisco, CA, USA
Print_ISBN
1-55752-634-6
Type
conf
DOI
10.1109/CLEO.2000.907467
Filename
907467
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