Fundamentals of integrated photonic components
MICRO-471 / 4 credits
Teacher:
Language: English
Withdrawal: It is not allowed to withdraw from this subject after the registration deadline.
Remark: pas donné en 2024-25
Summary
This course gives an introduction to basic integrated photonics components that are at the core of photonic nanotechnologies today. The course combines theoretical description with practical lab work where students will do simulations in CST Microwave Studio.
Content
The course starts from a basic revision of Maxwell's equations in linear, homogeneous, isotropic materials, followed by in-depth derivations of the following components:
1. Introduction
2. Basics of fibers and waveguides.
3. Basics of evanescent couplers and grating couplers.
4. Basics of splitters based on multi-mode interference (MMIs).
5. Basics of interferometers.
6. Basics of resonators (Fabry-Perot and ring resonators).
7. Basics of printed antennas.
Each week, students will first gain a theoretical understanding by deriving in-class the workings and the most fundamental underlying principles of the components we'll treat, and then gain hands-on experience in finite element methods using the simulation software CST Microwave studio.
Students will enforce the gained theoretical knowledge by analyzing the results of the electromagnetic simulations (field distribution, optical parameters such as refractive index, transmission, reflection etc.)..
Through the various exercises, students will be exposed to different features of the simulation tool (parametric sweep, template-based post processing, dispersive media etc.).
Keywords
integrated photonics, waveguides, on-chip, wave optics
Learning Prerequisites
Required courses
This course requires familiarity with Maxwell's equations and electromagnetism.
Learning Outcomes
By the end of the course, the student must be able to:
- Explain the working principles of the above components.
- Analyze the simulation results.
- Argue the observed trends of the performed simulations, e.g. dependence on refractive index, wavelength, angle.
- Decide which material system to use for a given component.
Teaching methods
2 hours of class + 2 hours of simulation work each week. The exercise classes will treat in detail the components treated in class, with problem sets and simulations.
Exercise sheets will be given every other week (7 sheets in total). Solutions will be handed out.
Assessment methods
The course grading is based on a final oral exam which counts for 50% of the grade. All exercise sheets will be collected and they count for 50% of the grade.
Supervision
Office hours | Yes |
Assistants | Yes |
Forum | Yes |
Resources
Bibliography
Saleh, Bahaa E. A. · Teich, Malvin Carl. 2. A. Verlag. John Wiley. 2007, "Fundamentals of photonics"
Ressources en bibliothèque
Moodle Link
In the programs
- Semester: Fall
- Number of places: 20
- Exam form: Oral (winter session)
- Subject examined: Fundamentals of integrated photonic components
- Lecture: 2 Hour(s) per week x 14 weeks
- Labs: 2 Hour(s) per week x 14 weeks
- Type: optional
- Semester: Fall
- Number of places: 20
- Exam form: Oral (winter session)
- Subject examined: Fundamentals of integrated photonic components
- Lecture: 2 Hour(s) per week x 14 weeks
- Labs: 2 Hour(s) per week x 14 weeks
- Type: optional
- Semester: Fall
- Number of places: 20
- Exam form: Oral (winter session)
- Subject examined: Fundamentals of integrated photonic components
- Lecture: 2 Hour(s) per week x 14 weeks
- Labs: 2 Hour(s) per week x 14 weeks
- Type: optional
- Semester: Fall
- Number of places: 20
- Exam form: Oral (winter session)
- Subject examined: Fundamentals of integrated photonic components
- Lecture: 2 Hour(s) per week x 14 weeks
- Labs: 2 Hour(s) per week x 14 weeks
- Type: optional
- Semester: Fall
- Number of places: 20
- Exam form: Oral (winter session)
- Subject examined: Fundamentals of integrated photonic components
- Lecture: 2 Hour(s) per week x 14 weeks
- Labs: 2 Hour(s) per week x 14 weeks
- Type: optional
- Semester: Fall
- Number of places: 20
- Exam form: Oral (winter session)
- Subject examined: Fundamentals of integrated photonic components
- Lecture: 2 Hour(s) per week x 14 weeks
- Labs: 2 Hour(s) per week x 14 weeks
- Type: optional
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