草榴社区

Simulation of an Index-Guided Tapered Laser

Tools Used: Tapered Laser Utility, BeamPROP, LaserMOD

Tapered laser diodes have emerged as a low cost source for providing a high output coherent beam, with applications including but not limited to telecommunication, printing and manufacturing, and medicine. The tapered geometry overcomes the poor beam quality issues that are faced by conventional high power broad area laser diodes, while still maintaining compatibility with traditional fabrication processes. However, the tapered structure makes the design process significantly more complicated necessitating the need for a full 3D simulation including the optical, electronic and thermal effects.

Traditional simulation techniques used to model such devices either oversimplify the problem and cant deal with detrimental effects like spatial hole burning, filamentation, self-focusing etc or do a rigorous time-domain analysis, which is highly computationally intensive both it time and memory. The Tapered Laser (TL) Utility provides an efficient and accurate design tool for analyzing and optimizing such tapered laser diode. It essentially combines, in a self-consistent manner, two of RSoft's mature and powerful simulation tools BeamPROP and LaserMOD, to provide a full 3D simulation of tapered laser diodes. The quasi-3D electrical, quantum mechanical gain and thermal calculations are performed via LaserMOD, whereas the optical field is propagated via BeamPROP.

Index Guided Tapered Laser Diode layout in RSoft CAD | 草榴社区

Figure 1: The Index Guided Tapered Laser Diode layout in RSoft CAD.
The yellow regions depict the electrodes.

Structure Overview:

Figure 1 shows the general structure of a Tapered Laser Diode. The longitudinal structure is a straight waveguide section followed by a tapered waveguide section. The transverse cross-section consists of an arbitrary epitaxial-layered structure that may contain p/n cladding, p/n waveguide and quantum well layer. The example models a tapered laser diode, with a 1000m long straight section and a 1000m linear tapered section. This depicts a generic structure that can be easily modified to match the required specifications, in terms of the material systems, the multi-layered transverse cross-section, and the longitudinal characteristics like the length of the straight section and the tapered region. The TL utility simulation parameters have been setup to perform a Voltage bias ramp from 1.3V to 1.6V with 7 intermediates steps.

Tapered Laser Utility Simulation Window upon completion | 草榴社区

Figure 2: (a) The Tapered Laser Utility Simulation Window upon completion.
(b) The final LIV curve.

Simulation Results:

Figure 2 shows the results for this structure. For the final bias point Vbias=1.6V the result for the combined power exiting from both laser facets is ~1789mW and the current is ~1670mA. As can be seen from Figure 2, the field at the output facet at bias 1.6V has a lot of characteristics. Moreover, the LI curve follows very closely a straight line. Once the simulation is complete the user can also scroll through the forward and backward field profiles inside the laser cavity at each simulated bias above the threshold.

The stabilized field profiles, for Vbias=1.45, at various z-slices along the laser cavity are shown below in Figure 3. It is evident that even at the input facet the field profile deviates quite a bit from the fundamental mode.

Field profile at Vbias=1.45V | 草榴社区

Figure 3: Field profile at Vbias=1.45V
(a) Z=0?m (input facet)
(b) Z=1500?m (taper middle)
(c) Z=2000?m (output facet).

Moreover, if we look at the stabilized field shapes at different biases (see Fig 4), it is clear that the characteristics of the field profile changes significantly, with effects like filamentation getting stronger at higher biases.

Horizontal cut of the field profiles | 草榴社区

Figure 4: Horizontal cut of the field profiles at the output facet at
(a) Vbias=1.45V 
(b) Vbias=1.6V.

Summary:

The need for high power and good beam quality tapered laser diodes require efficient and accurate simulation tools capable of accurately modeling the complex electro-thermal-optical interactions occurring inside such devices. RSoft's new Tapered Laser Utility provides an ideal package, accurate, efficient, and user friendly, for analyzing and optimizing such tapered laser diodes for a wide range of applications.