Title :
Picosecond CO2 laser-pulse generation and amplification
Author :
Kesselring, R. ; Kälin, A.W. ; Schötzau, H.J. ; Kneübuhl, Fritz K.
Author_Institution :
Inst. of Quantum Electron., Swiss Federal Inst. of Technol., Zurich, Switzerland
fDate :
3/1/1993 12:00:00 AM
Abstract :
The generation of 30-ps 10-μm laser pulses from an optical-free-induction-decay (OFID) 10-μm CO2 laser system and the first realization of a UV-preionized high-pressure CO2-laser-pulse amplifier with Ernst-electrode profiles for these ultrashort CO2 laser pulses are described. For a given transverse electric discharge width, the Ernst profile makes it possible to position the UV-radiation sources nearer to the discharge than with the Rogowski or Chang profile. A more homogeneous preionization of the discharge area is possible. Thus, the amplifier works up to 15 bar with a laser-gas mixture of 5:5:90 (CO2:N2:He). The authors amplified 30-ps OFID 10-μm CO2-laser pulses up to ten times by passing through the amplifier twice. Thus, 10-μm OFID pulse energies of 1 mJ were achieved. With the amplifier used as an oscillator, a maximum output energy of 600 mJ was obtained in longitudinal-multimode operation for 50-ns pulses
Keywords :
carbon compounds; gas lasers; high-speed optical techniques; laser modes; optical coherent transients; 1 mJ; 10 micron; 30 ps; 50 ns; 600 mJ; CO2; CO2 laser system; CO2-N2-He; CO2-laser-pulse amplifier; Ernst-electrode profiles; IR; UV-preionized high-pressure; UV-radiation sources; discharge; discharge area; homogeneous preionization; laser modes; laser-gas mixture; laser-pulse amplification; laser-pulse generation; longitudinal-multimode operation; maximum output energy; optical-free-induction-decay; picosecond pulses; ps pulses; pulse energies; transverse electric discharge width; ultrashort CO2 laser pulses; Biomedical optical imaging; Chemical lasers; Laser theory; Laser transitions; Optical amplifiers; Optical pulse generation; Optical pulses; Pulse amplifiers; Pump lasers; Semiconductor lasers;
Journal_Title :
Quantum Electronics, IEEE Journal of
