The Quantum Technologies MSc will take students to the cutting-edge of research in the emerging area of quantum technologies, giving them not only an advanced training in the relevant physics but also the chance to acquire key skills in the engineering and information sciences.
Students learn the language and techniques of advanced quantum mechanics, quantum information and quantum computation, as well as state-of-the-art implementation with condensed matter and quantum optical systems.
Students undertake modules to the value of 180 credits.
The programme consists of five core modules (75 credits), three optional modules (45 credits) and a research project with a dissertation/report (60 credits).
Core modules -Advanced Quantum Theory -Atom and Photon Physics -Quantum Communication and Computation -Research Case Studies for Quantum Technologies -Transferable Skills in Research Case Studies for Quantum Technologies
Optional modules - students choose three of the following optional modules: -Advanced Photonic Devices -Introduction to Cryptography -Nanoelectronic Devices -Nanoscale Processing for Advanced Devices -Optical Transmission and Networks -Order and Excitations in Condensed Matter -Physics and Optics of Nano-Structures -Research Computing with C++ -Research Software Engineering with Python
Dissertation/report All students undertake an independent research project (experimental or theoretical) related to quantum technologies, which culminates in a presentation and a dissertation of 10,000 words.
Teaching and learning The programme is delivered through a combination of lectures and seminars, with self-study on two modules devoted to the critical assessment of current research topics and the corresponding research skills. Assessment is through a combination of problem sheets, written examinations, case study reports and presentations, as well as the MSc project dissertation.
The programme prepares graduates for careers in the emerging quantum technology industries which play an increasingly important role in: secure communication; sensing and metrology; the simulation of other quantum systems; and ultimately in general-purpose quantum computation. Graduates will also be well prepared for research at the highest level in the numerous groups now developing quantum technologies and for work in government laboratories.
Employability Graduates will possess the skills needed to work in the emerging quantum industries as they develop in response to technological advances.
Why study this degree at UCL?
UCL offers one of the leading research programmes in quantum technologies anywhere in the world, as well as outstanding taught programmes in the subjects contributing to the field (including physics, computer science, and engineering). It also hosts the EPSRC Centre for Doctoral Training in Delivering Quantum Technologies.
The programme provides a rigorous grounding across the disciplines underlying quantum technologies, as well as the chance to work with some of the world's leading groups in research projects. The new Quantum Science and Technology Institute ('UCLQ') provides an umbrella where all those working in the field can meet and share ideas, including regular seminars, networking events and opportunities to interact with commercial and government partners.
The bursary will be awarded based on financial need only as determined by the Student Funding Office.Value, Benefits and Duration - The value of the bursary is £15,000. The payment is to be applied to tuition fees in the first instance, with any remainder being paid to the successful applicant towards maintenance in termly instalments. - The bursary is tenable for one year only. - The bursary may not be held alongside other tuition fee only awards.
Value of Scholarship(s)
- prospective full-time UK Master's students who are undertaking a one-year programme of study in the Faculties of the Built Environment, Engineering Sciences or Mathematical & Physical Sciences (BEAMS) in 2015/16 - currently holding a first-class Bachelor's degree; and - in financial need.
A minimum of an upper second-class Bachelor's degree from a UK university or an overseas qualification of an equivalent standard in physics, engineering, mathematics, computer science or a related subject, with evidence of familiarity with basic quantum mechanics.
Recipient: University College London
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