This is a full-scale lecture, an elective 4 EC-module in the local M.Sc. Photonics course by Prof. Thomas Pertsch. In Jena, this is offered every summer term with a lecture of 2h per week and a seminar of 1h per week. The module is self-standing in the sense that there is an online platform where students can independently assess all lecture material, all recorded lectures (lastly recorded in the summer term 2025), all tutorials, task sheets, etc.
Content
Introduction to the problem – Maxwell’s equations and the wave equation Free space propagation techniques Beam propagation methods applied to problems in integrated optics Mode expansion techniques applied to stratified media Mode expansion techniques applied to spherical and cylindrical objects Multiple multipole technique Boundary integral method Finite-Difference Time-Domain method Finite Element Method Computation of the dispersion relation (band structure) of periodic media Mode expansion techniques applied to gratings Other grating techniques Contemporary problems in computational photonics
Online and Jena, Germany
The course aims at an introduction to various techniques used for computer based optical simulation. Therefore, the student should learn how to solve Maxwell’s equations in homogeneous and inhomogeneous media rigorously as well as on different levels of approximation. The course concentrates predominantly on teaching numerical techniques that are useful in the field of micro- and nanooptics.
Optical design & engineering
Basic knowledge of a computer programming language and computational physics will be helpful.
Prof.
Thomas
Pertsch
Dr.
Christian
Helgert
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