In this learning track, we will first discuss the basic workflow for eigenmode expansion (EME) simulations and when you should use them. Next, we will cover some background on the calculations performed for the EME method used for Ansys Lumerical EME simulations. Following this, we will cover the basic settings of the Lumerical EME solver region, including the simulation region geometry, cell definition, periodicity, and boundary conditions. We will then discuss ports, cells, and monitors. We will also learn how to interpret the results obtained by running Lumerical EME simulations. Finally, we will discuss the sources of error in a Lumerical EME simulation and learn how to verify the accuracy of simulation results by using convergence testing and error diagnostics. Note: The EME method makes use of the finite difference eigenmode (FDE) solving algorithm, which is covered in detail in the FDE learning track. The FDE learning track is a recommended prerequisite for this course.