![]() Laser gain calculations for edge-emitting lasers use the multi-quantum well solver MQW with inputs from our optical solvers. Detectors can be realized using the integrated electro-optic workflows presented in the avalanche and vertical photodetector example. Model a phase-shifter that uses electrical or thermal tuning in an MZM configuration for beam steering in an optical phased array. Finally, a dvanced materials can be modelled in Lumerical and integrated within SPEOS, for example when designing a heads-up display or anti-reflective headlight coatings. Integrating Ansys ’ tools such SPEOS provide s an even more comprehensive solution for LiDAR. A ccounting for spatially correlated statistical variations in INTERCONNECT elements provid es confidence aga i nst tolerance s due to manufacturing imperfections. Lumerical INTERCONNECT provides circuit- level photonic simulatio n for ensuring system level functionality. Use Lumerical’s Multiphysics and photonic design tools to evaluate, design, and optimize all your PIC components (waveguides, grating couplers, modulators, detectors, emitters, etc). ![]() These systems may prove to be important components for LiDAR s ystems within the next generation of autonomous vehicles. Ans ys Lumerical provides a robust solution for engineers developing solid-state optical phased arrays. ![]()
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