Fast phenomena in semiconductor lasers

Abstract: Although diode lasers are almost ideal sources for ultrahigh-speed data communication systems, system performance remains critically dependent on the quality of the optical pulses that they generate. Uniquely among lasers, the output power can be modulated directly by modulating the diode current. However, this leads to relaxation oscillations and a roll-off at high frequencies that is superimposed on the frequency response of the drive circuit. This is limited by parasitics and maximum modulation frequencies … Show more

“…5, the different longitudinal modes of the external cavity laser can be clearly distinguished. The broadening of the spectral width compared to CW operation is believed to be caused both by the chirp during the current pulse [7] and deterioration of the beam profile from the back facet of the laser. At 10 W peak power the spectral width is as narrow as 0.04 nm (FWHM).…”

Wavelength stabilisation during current pulsing of tapered laser

“…5, the different longitudinal modes of the external cavity laser can be clearly distinguished. The broadening of the spectral width compared to CW operation is believed to be caused both by the chirp during the current pulse [7] and deterioration of the beam profile from the back facet of the laser. At 10 W peak power the spectral width is as narrow as 0.04 nm (FWHM).…”

Wavelength stabilisation during current pulsing of tapered laser

“…Short optical pulses with duration of tens of picoseconds can be easily generated from Gain Switched (GS) semiconductor lasers [1] and find application in a rich variety of fields [2]. Pulses from GS lasers are intrinsically characterized with a relevant amount of negative frequency chirp, due to the current induced index modulation around the threshold carrier density value.…”

Pulse shortening of gain switched single mode semiconductor lasers using a variable delay interferometer

“…But for modelling of generation dynamics the so called point laser model (PLM) is still widely used (see [9,14,16,30,35] and references therein). Due to significant mathematical difficulties traveling wave model (TWM) is rarely used for laser generation modelling [4,8,11,20,32,33]. This model is more often used for numerical analysis of fiber [11,33] and semiconductor [12,20,32] lasers.…”

“…The TWM can be successfully used for short pulse amplification modelling in the multipass amplifiers [5,10,25]. However it should be noted that very often the TWM is used in a simplified version, only during initial stage of problem investigation for setting grounds of common strongly simplified models which are used in subsequent studies [9,18,19,24,27,32].…”

Numerical Analysis of Laser Diode Longitudinally Pumped Solid‐state Laser Generation Dynamics Using Traveling Wave Model