This MRes aims to train students in the methods of valid scientific research to successfully embark on their PhD. Building knowledge and skills to develop the next generation of photonic systems.
Key information
To find out core information about this degree, such as entry requirements, programme length and cost, visit the °×С½ãÂÛ̳ Graduate Degrees site.
Visit the Graduate DegreesÌýsite
Application information
We expect competition for places and funding to be highly competitive and all potential applicants should submit the . Please note that this does not constitute a formal application. Following initial consideration of your pre-application, and interview, successful candidates will be invited to make a formal application to the University of Cambridge or °×С½ãÂÛ̳ using the standard application form.
Programme information
The MRes is taught at the EPSRC at the University of Cambridge and °×С½ãÂÛ̳
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Students undertake modules to the value of 180 credits. Students take two compulsory research projects (90 credits), one transferable skills module (15 credits), three optional modules (45 credits) and two elective modules (30 credits).
Please note, all choices are subject to space on modules, timetabling constraints and the approval of the relevant Module Tutor and the Programme Director.
- Compulsory components
- Project Report 1 at either °×С½ãÂÛ̳ or Cambridge
- Project Report 2 at either °×С½ãÂÛ̳, Cambridge or in industry
- Transferable Business Skills
- Optional modules
Students select three optional modules from the following list.
- Biosensors
- Advanced Photonic Devices
- Photonic Systems
- Broadband Technologies and Components
- Management of Technology
- Strategic Management
- Telecommunication Business Environment
- Elective modules
Students select twoÌýelectiveÌýmodules from the following list.
- Electronic Sensors and Instrumentation
- Display Technology
- Analogue Integrated Circuits
- Robust and Nonlinear Systems and Control
- Digital Filters and Spectrum Estimation
- Image Processing and Image Coding
- Computer Vision and Robotics
- Materials and Processes for Microsystems
- Building an Internet Router
- Network Architecture
- Sensors for Network Services and Design
- Optical Transmission and Networks
- Nanotechnology and Healthcare
- RF Circuits and Sub-systems
- Physics and Optics of Nano-Structure
- Broadband Communications Lab
- Analogue CMOS IC Design Applications
- Embedded systems for the Internet of Things
- Flexible Electronics
Teaching staff
Programme director
Prof Cyril Renaud
Lecturers and Teaching Fellows
Details of specific lecturers and teaching fellows can be found on module pages.
Timetable
To illustrate how the course will be taught, you can find live timetable information atÌý- simply click on 'Degree programme' and enter the desired course title.
Facilities
Visit our Facilities page to find out how our spaces and resources will assist in your learning, or visit the °×С½ãÂÛ̳ Prospective Students site to find out what's more widely available to students.
Location
All Electronic and Electrical EngineeringÌýstudents are based in Bloomsbury, London. Visit ourÌýAbout section to find out more.