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Properly mesh and discretize: Ensure sufficient mesh resolution and proper discretization of the simulation domain.
Use correct boundary conditions: Apply suitable boundary conditions to mimic real-world scenarios.
Monitor convergence: Verify convergence of the simulation results.

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In the realm of electromagnetics, simulating the behavior of light and its interactions with various materials is crucial for designing and optimizing photonic devices, such as optical fibers, lasers, and solar cells. One powerful tool for these simulations is Lumerical's Finite-Difference Time-Domain (FDTD) solver. However, like any complex software, users may encounter challenges or "cracks" in the solution process. Let's dive into the world of FDTD simulations and explore how to overcome common hurdles.