This course aims to equip students with broad foundational knowledge of current research and technology trends in the photonics. The student will learn basic physical concepts and the working principles of various cornerstone nanophotonic devices, in addition to methods to describe and analyse their operation. The course is intended for those wishing to pursue careers in research, development, or engineering roles in nanophotonics fields such as integrated optics, optoelectronics, and photonics-based industries.
| AUs | 3.0 AUs |
| Grade Type | |
| Prerequisite | Year 4 standing EE3018, EE3101 |
| Not Available To Programme | |
| Not Available To All Programme With | |
| Not Available As BDE/UE To Programme | |
| Not Available As Core To Programme | |
| Not Available As PE To Programme | |
| Mutually Exclusive With | |
| Not Offered As BDE | |
| Not Offered As Unrestricted Elective | |
| Exam |
Available Indexes
| Mon | Tue | Wed | Thu | Fri | |
|---|---|---|---|---|---|
| 930 | |||||
| 1000 | |||||
| 1030 | |||||
| 1100 | |||||
| 1130 | |||||
| 1200 | |||||
| 1230 | |||||
| 1300 | |||||
| 1330 | |||||
| 1400 | |||||
| 1430 | |||||
| 1500 | |||||
| 1530 | |||||
| 1600 | |||||
| 1630 | |||||
| 1700 | |||||
| 1730 | |||||
| 1800 |
Other Relevant Mods
EE1102
Physics Foundation For Electrical & Electronic Engineering
EE2005
Electrical Devices & Machines
EE2073
Introduction To Eee Design & Project
EE2101
Circuit Analysis
EE2102
Analog Electronics
EE2103
Semiconductor Fundamentals
EE3011
Modelling & Control
EE3013
Semiconductor Devices & Processing
EE3015
Power Systems & Conversion