Entry requirementsEntry Requirements Applicants for the course are expected to have a first or second class honours degree in physics, applied physics, electronic engineering, or equivalent qualifications. Lesser qualifications combined with relevant industrial experience may also be suitable.
Academic titlePhotonics And Optoelectronic Devices MSc
Course descriptionDuration
One year.
Overview
The photonics research groups in the physics departments of Heriot-Watt and St. Andrews Universities are internationally renowned, and have many links with industrial and university groups around the world. Major activities are based around optoelectronics, laser development, semiconductor physics, materials technology, ultra-fast phenomena, modern optics, and instrumentation. This expertise is brought to the teaching of our one-year taught MSc course. Support from the UK Engineering and Physical Sciences Research Council allows us to offer full fees, plus a stipend exceeding £9,000, for eligible students accepted on to the course.
Previously called Optoelectronic and Laser Devices, this MSc course has been updated and enhanced, recognising the explosive growth of the UK and global photonics industry, fostered by the world-wide expansion in the exploitation of optical in telecommunications. Students receive postgraduate training in modern optics and semiconductor physics tailored to the needs of the optoelectronics industries. Graduates gain an understanding of the fundamental properties of optoelectronic materials and optical fibres, and experience of the technology and operation of a wide range of laser semiconductor devices appropriate to the telecommunications, information technology, sensing, and manufacturing industries.
Students spend one semester at each university, and then undertake a three-month research project, normally in a UK company. Companies participating in recent years include Bookham Technologies, BAE Systems, Edinburgh Sensors, Cambridge Display Technology, Defence Science and Technology Laboratory, Indigo Photonics, Intense Photonics, Kamelian, Nortel, Renishaw, Rutherford Appleton Laboratory, Thales, Sharp and QinetiQ.