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TET Student Projects WS 2020/2021

The TET group offers several projects:

  • For all projects you should have solid knowledge of Electrodynamics as taught in the "Fields and Waves" course. Also, it will help if you are interested in theoretical modelling and numerical simulations, as e.g. taught in our "Modeling and Simulation" course.
  • If you want to do a project you first have to register in PAUL. The course names are independent actual project topic:
    • As ET student: L.048.98021 or L.048.28035 for one-semester project, L.048.28509 for a two-semester project
    • As ESE student: L.048.98021 or L.048.98035 for one-semester project, L.048.98509 for a two-semester project
    • As OE&Ph student: L.128.35100 (one-semester projects only)
  • Also, you need to  write an e-mail to Mrs. Nina Prante:
    • Include your name, student id and 1-3 preferred projects from the list below.
    • Projects are done in groups of 2-3 students. If you want to work with someone specific, please let us know.
    • If your would be able to do the project in German, please let us know.
  • The number of project groups is limited. You will be noticed if and which project you can do.
  • For projects based on CST Microwave Studio it is compulsory to attend a one day workshop where the basics are presented. Participants will receive a certificate.
  • There will be no prior meeting on the projects. Please contact the persons listed in the project list or Prof. Dr. Jens Förstner for more information.

Important dates

  • Register for course in PAUL: for deadlines see PAUL
  • Mail to Ms Prante with project choices:

List of offered projects

Project 1: Simulation of photonic cavities
Group size: 2 - 3              
Language: English and German
Prerequisites: knowledge of CST Microwave Studio (desirable)
Duration: 1 - 2 semesters
Details:  please contact supervisor
Supervisor: Dustin Siebert
Project 2: Modenanalyse eines Mikroresonators zur evaneszenten Anregung von Fasermoden
Group size: 1 - 3            
Language: English and German
Prerequisites: TET (desirable)
Duration: 1 - 2 semesters
Details:  pdf
Supervisor: Lena Ebers               
Project 3: Modeling optical response of metal nanoparticles using time-domain Comsol simulations
Group size:          1 - 3              
Language: English
Duration: 1 - 2 semesters
Details:  pdf
Supervisor: Dr. Viktor Myroshnychenko
Project 4: Implementing Exponential Time Integration for the Discontinuous Galerkin Time Domain Method
Group size: 1 - 3              
Language: English
Duration: 2 semesters
Details:  pdf
Supervisor: Dr. Yevgen Grynko
Project 5: (Simulative) Untersuchung von Messeffekten und –rauschen von Nahfelddaten auf Huygens-Box Messungen
Group size: 1          
Language: English or German
Duration: 1 semester
Details: pdf
Supervisor: Dominik Schröder

      

Project 6: Auswertung von Huygens-Box Messungen und Vergleich von abstrahlenden und nicht-abstrahlenden Objekten
Group size: 1           
Language: English or German
Duration: 1 semester
Details: pdf
Supervisor: Dominik Schröder
Project 7: Simulativer Vergleich unterschiedlicher Huygens-Box Oberflächen mit Hilfe von CST Studio Suite
Group size: 1            
Language: English or German
Duration: 1 semester
Details: pdf
Supervisor: Dominik Schröder

 Please contact Prof. Dr. Jens Förstner for more information.

Contact

Prof. Dr. Jens Förstner

Theoretical Electrical Engineering

Jens Förstner
Phone:
+49 5251 60-3013
Fax:
+49 5251 60-3524
Office:
P1.5.01.1

Office hours:

on request (during lecture break)

Contact for registration

Nina Prante

Theoretical Electrical Engineering

Nina Prante
Phone:
+49 5251 60-3016
Fax:
+49 5251 60-3524
Office:
P1.5.01.2

Office hours:

Mo, Wed, Thu: 01.00 pm - 05.00 pm

Tue + Fr: 08.30 am - 12.30 pm

TET courses & projects

Frequently asked questions (FAQ)

Course Portfolio

SoSe 2021: Courses, projects

WS 2020/2021: Courses, projects

SoSe 2020: Courses, projects

WS 2019/2020:Courses, projects

SoSe 2019: Courses, projects

WS 2018/2019: Courses, projects

SoSe 2018: Courses, projects

WS 2017/2018: Courses, projects

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