 | Study programme 2018-2019 | Français | |
 | Micro et nanophotonique | ||
Programme component of Master's Degree in Physics à la Faculty of Science |
| Code | Type | Head of UE | Department’s contact details | Teacher(s) |
|---|---|---|---|---|
| US-M1-SCPHYS-027-M | Optional UE | MAES Bjorn | S803 - Matériaux Micro et Nanophotoniques |
|
| Language of instruction | Language of assessment | HT(*) | HTPE(*) | HTPS(*) | HR(*) | HD(*) | Credits | Weighting | Term |
|---|---|---|---|---|---|---|---|---|---|
| Français | 30 | 15 | 15 | 0 | 0 | 5 | 5.00 | 1st term |
| AA Code | Teaching Activity (AA) | HT(*) | HTPE(*) | HTPS(*) | HR(*) | HD(*) | Term | Weighting |
|---|---|---|---|---|---|---|---|---|
| S-PHYS-064 | Micro- and Nanophotonics | 30 | 15 | 15 | 0 | 0 | Q1 | 100.00% |
| Programme component |
|---|
Objectives of Programme's Learning Outcomes
- Master expertise.
- Have acquired knowledge and a thorough understanding of specialist areas of physics in connection with mathematics and/or advanced laboratory practices required for these sectors.
- Have reached a level of knowledge and skill giving them access to the third cycle of the study programme / doctoral studies (only for two-year Master courses).
- Provide clear and accurate information.
- Share their knowledge and findings clearly and back them up rationally to specialist and non-specialist audiences.
- Grow personally and professionally.
- Have developed the skills that will enable them to continue to acquire knowledge independently.
- Have a creative and rigorous scientific approach
- Gather and interpret relevant scientific data and critically analyse it, distinguising working hypotheses of proven facts.
Learning Outcomes of UE
This course introduces current subjects in the field of micro- and nanophotonics. The objective is to apply the concepts of optics to structures with features smaller than the wavelength. Thus we study devices and applications of integrated optics. Furthermore the specific optical behaviour of metals (plasmonics) and periodic devices (photonic crystals) is explained. We focus on the theoretical concepts and numerical modeling. At the end of the course students are able to comprehend the actual literature to a large extent.
Content of UE
Waveguides, plasmonics, photonic crystals, numerical modeling.
Prior Experience
Not applicable
Type of Assessment for UE in Q1
- Presentation and/or works
- Oral examination
- Written examination
Q1 UE Assessment Comments
Oral examination, written examination (exercises) (70%) and presentations and projects (30%)
Type of Assessment for UE in Q3
- Presentation and/or works
- Oral examination
- Written examination
Q3 UE Assessment Comments
Oral examination, written examination (exercises) (70%) and presentations and projects (30%)
Type of Resit Assessment for UE in Q1 (BAB1)
- N/A
Q1 UE Resit Assessment Comments (BAB1)
Not applicable
Type of Teaching Activity/Activities
| AA | Type of Teaching Activity/Activities |
|---|---|
| S-PHYS-064 |
|
Mode of delivery
| AA | Mode of delivery |
|---|---|
| S-PHYS-064 |
|
Required Reading
| AA | |
|---|---|
| S-PHYS-064 |
Required Learning Resources/Tools
| AA | Required Learning Resources/Tools |
|---|---|
| S-PHYS-064 | Not applicable |
Recommended Reading
| AA | |
|---|---|
| S-PHYS-064 |
Recommended Learning Resources/Tools
| AA | Recommended Learning Resources/Tools |
|---|---|
| S-PHYS-064 | Sans objet |
Other Recommended Reading
| AA | Other Recommended Reading |
|---|---|
| S-PHYS-064 | 'Photonic crystals, molding the flow of light,' 2nd ed., Joannopoulos et al, Princeton University Press, 2008. (http://ab-initio.mit.edu/book/) |
Grade Deferrals of AAs from one year to the next
| AA | Grade Deferrals of AAs from one year to the next |
|---|---|
| S-PHYS-064 | Unauthorized |