Title :
Picosecond and femtosecond pulse generation in a regeneratively mode-locked Ti:sapphire laser
Author :
Kafka, James D. ; Watts, Michael L. ; Pieterse, Jan-Willem J.
Author_Institution :
Spectra-Physics Lasers Inc., Mountain View, CA, USA
fDate :
10/1/1992 12:00:00 AM
Abstract :
The authors have produced transform-limited pulses ranging from 100 ps to 40 fs duration from a Ti:sapphire laser. Output powers in excess of 1 W and peak powers of 0.5 MW have been observed. They describe the technique of regenerative mode locking and present evidence that a transient with a peak power of more than 10 kW is required to initiate mode locking. The role of group velocity dispersion is highlighted and a value of -750 fs2 is measured for the group delay dispersion in an operating laser. The authors describe the limits on both the power and pulsewidth obtainable from this laser and present pulse compression experiments which produce 17 fs pulses with 70 mW of average power
Keywords :
high-speed optical techniques; laser mode locking; sapphire; solid lasers; titanium; 0.5 MW; 1 W; 10 kW; 100 ps to 40 fs; 17 fs; 70 mW; Al2O3:Ti; average power; femtosecond pulse generation; group velocity dispersion; output powers; peak powers; picosecond pulse generation; pulse compression experiments; pulsewidth; regeneratively mode-locked Ti:sapphire laser; transform-limited pulses; Delay; Dispersion; Laser mode locking; Optical pulses; Power generation; Power lasers; Pulse compression methods; Pulse generation; Space vector pulse width modulation; Velocity measurement;
Journal_Title :
Quantum Electronics, IEEE Journal of
