Title :
Resonant Saturable Absorber Mirrors for Dispersion Control in Ultrafast Lasers
Author :
Moenster, Mathias ; Griebner, Uwe ; Richter, Wolfgang ; Steinmeyer, Günter
Author_Institution :
Max-Born-Inst. fur Nichtlineare Optik und Kurzzeitspektroskopie, Berlin
Abstract :
We discuss a concept for incorporating dispersion compensation into a saturable absorber mirror. This integrated device relies on an absorber layer embedded in a resonator structure and can provide negative dispersion of several 1000 fs2, similar to the spectral phase characteristics of a Gires-Tournois interferometer. A similar integration is possible also for semiconductor gain structures, as they are employed in semiconductor disk lasers. We will provide a detailed analysis of the dispersion compensation capacities of our approach, linking dispersion scaling and nonlinear properties of the device. The theoretical part will be illustrated by dispersion measurements on prototypical devices. We believe that our concept paves the way for fully integrated vertical semiconductor femtosecond lasers but may also find numerous applications in solid state lasers and femtosecond fiber lasers
Keywords :
compensation; high-speed optical techniques; laser cavity resonators; laser mirrors; light interferometers; optical control; optical dispersion; optical saturable absorption; Gires-Tournois interferometer; dispersion compensation; resonant saturable absorber mirrors; semiconductor disk lasers; ultrafast lasers; Dispersion; Fiber lasers; Joining processes; Laser theory; Mirrors; Optical control; Prototypes; Resonance; Semiconductor lasers; Solid lasers; Group delay dispersion; passive mode-locking; photonic switching; photonic thin-film devices; saturable absorber mirrors;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2006.889056
