Title :
Generation of single femtosecond pulses by hybrid mode-locking of a semiconductor laser
Author :
Weber, Andreas G. ; Schell, Martin ; Fischbeck, Goetz ; Bimberg, Dieter
Author_Institution :
Inst. fuer Festkorperphys., Tech. Univ., Berlin, Germany
fDate :
10/1/1992 12:00:00 AM
Abstract :
A scheme to produce single optical sub-picosecond pulses by hybrid mode locking of an external cavity laser at a repetition rate of ≈1 GHz is demonstrated. In order to obtain such ultrashort pulses the emission wavelength has to be blue-shifted from the emission maximum by a few nanometers by a reflection grating, which provides the external optical feedback. The dependence of such optical properties as pulsewidth, pulse shape, jitter, and amplitude on the implantation dose, excitation frequency and wavelength detuning is investigated. To take advantage of the almost dispersionless propagation through conventional fibers, lasers emitting at a wavelength of ≈1.3 μm are used. However, the method is applicable to semiconductor lasers emitting at any wavelength
Keywords :
diffraction gratings; feedback; high-speed optical techniques; laser accessories; laser cavity resonators; laser mode locking; semiconductor lasers; 1.3 micron; IR; blue-shifted; dispersionless propagation; emission maximum; emission wavelength; excitation frequency; external cavity laser; external optical feedback; hybrid mode-locking; implantation dose; jitter; laser tuning; optical properties; pulse shape; pulsewidth; reflection grating; repetition rate; semiconductor laser; single femtosecond pulses; single optical sub-picosecond pulses; spectral line breadth; ultrashort pulses; wavelength detuning; Hybrid power systems; Laser feedback; Laser mode locking; Optical feedback; Optical pulse generation; Optical pulse shaping; Optical pulses; Pulse generation; Stimulated emission; Ultrafast optics;
Journal_Title :
Quantum Electronics, IEEE Journal of
