

BSc Physics with Quantum Computing with Foundation Year
About this course
Quantum computing represents one of the most significant emerging frontiers in science and technology. While classical computers process information as binary bits that are either 0 or 1, quantum computers harness the principles of quantum mechanics, including superposition and entanglement, to perform certain computations at speeds that classical machines cannot approach. The potential applications range from cryptography and pharmaceutical discovery to optimisation problems in logistics and finance, and the race to build reliable quantum systems is one of the defining technological competitions of our era. At the University of Surrey, this four-year, full-time programme includes a foundation year that builds the mathematical and physical foundations needed before progressing to degree-level study. You will study the full spectrum of quantum technologies, from the physics of lasers and photonics through to quantum information theory and the principles of quantum computing. The foundation in mainstream physics is essential: understanding quantum phenomena requires a rigorous grounding in classical mechanics, electromagnetism, and mathematics, and the programme develops this alongside the specialist quantum content. Surrey's research strengths in quantum and photonic technologies provide an excellent context for learning at the frontier of the field. A typical entry tariff of 120 points reflects an accessible admissions threshold for a programme that leads to highly specialised and sought-after expertise. Graduates with physics and quantum computing qualifications are in growing demand across the technology sector, defence and intelligence agencies, pharmaceutical companies, financial services, and academic research. Roles in quantum software development, quantum hardware engineering, quantum algorithm design, and quantum systems research are emerging rapidly as the field matures. Many graduates continue to doctoral study, where opportunities in quantum computing and related fields are expanding significantly. The programme positions you at the intersection of physics and computer science, giving you a genuinely rare and forward-looking set of skills.
Syllabus & Modules
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