理学学士（荣誉学位）-光子学

从数学到药物化学，从生物技术到地理，从食品科学到光子学，BSc（Hons）计划提供的大量专业知识意味着您一定会找到合适的人。此外，您将能够在自己的专业领域内加深知识和技能。获得荣誉学士学位后，有可能升读理学硕士学位（MSc）。如果您在理学学士（荣誉）课程中获得一等或一等二等荣誉，您将有资格直接进入博士学位。光子学是产生和控制光的技术。光子学是一个相对较新的研究领域，它将成为21世纪的关键技术。通过使用激光，光学和电光设备，其目的是允许在许多不同的技术领域进行新的测量和应用。光子学的应用可以在计算机和手机显
From Mathematics to Medicinal Chemistry, Biotechnology to Geography and Food Science to Photonics, the sheer range of specialisations available in the BSc(Hons) programme means you're sure to find your niche. What's more, you'll be able to deepen your knowledge and skills in your specialist area. After graduating with a BSc(Hons), it's possible to progress to a Master of Science (MSc) degree. If you achieve First or Second Class First Division Honours in your BSc(Hons), you'll be eligible for direct entry to a PhD. Postgraduate study in Applied Mathematics focuses on mathematical and computational models to formulate and solve real-world problems from a variety of areas within science and technology. From analysing the most efficient way to schedule airline routes between cities, to the effects and safety of new drugs, applied maths is a good foundation to apply alongside many other sciences. You will learn how to build mathematical models, how to formulate mathematical ideas for useful modeling, alongside learning about the solutions of models.<br><br>Photonics is the technology behind the generation and control of light. A comparatively new field of research, photonics is set to become a key technology for the 21st Century. Through the use of lasers, optics, and electro-optical devices it aims to allow new measurements and applications across many diverse fields of technology. Applications of photonics can be found in computer and cellphone displays, advanced manufacturing, LED-based lighting systems, new photovoltaic clean-energy generators and laser micro-fabrication. There are also ever-increasing applications of laser technology in medicine. One of the largest and most important applications of photonics is in optical communications. The phenomenal development of the World Wide Web is only possible because of the enormous bandwidths now available for data transmission through optical fibres.