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The Physics master’s programme offers you a research intensive tailor-made study path on current topics in experimental and theoretical physics at an institute of international renown. Read more

The Physics master’s programme offers you a research intensive tailor-made study path on current topics in experimental and theoretical physics at an institute of international renown.

What does this master’s programme entail?

The Physics master’s programme is intimately related to the scientific research carried out at the Leiden Institute of Physics. You will spend approximately 50% of your programme on research, as a member of one of our top-level international research groups. We offer five research specialisations, with emphasis on either experimental or theoretical physics, which train you as an independent researcher. We also offer three specialisations that put Physics in broader societal contexts and train you for careers where a Physics background is an asset. Each of these specialisations aims at providing a combination of research independence and content proficiency that fully prepares you for a successful professional development for your professional development.

Learn more about the Physics programme.

Why study Physics at Leiden University?

  • The programme offers a wide choice of individual study paths that take into account individual needs and interests. You can either build a purely academic profile, or you may combine physics research with education, business studies or science communication.
  • You will carry out at least one research project with one of the research groups of the Leiden Institute of Physics. Research at the department is at the forefront of fundamental modern Physics at an internationally competitive level.
  • At the Leiden Institute of Physics you experience an open, inclusive, and collegial atmosphere. Your weekly routine includes attending colloquia of international speakers, partaking in symposia and participating in lively scientific discussions.

Find more reasons to choose Physics at Leiden University.

Physics: the right master’s programme for you?

Are you looking into furthering your education in fundamental questions in physics? Then our Physics master’s programme is the right choice. Whether you are interested in experimental or theoretical research, or cosmology, we offer it all. You will be trained for a career in research within or outside academia. You can also choose for a more practical-oriented specialisation where you combine one year of Physics research with one year of training in business, communication or education.

Read more about the entry requirements for Physics.

Specialisations



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Do you want to contribute to an area of cutting-edge research in an awe-inspiring subject? Do you want to delve deeper into advanced topics in physics or… Read more
Do you want to contribute to an area of cutting-edge research in an awe-inspiring subject? Do you want to delve deeper into advanced topics in physics or astronomy? Develop valuable new knowledge and skills? Prepare for a research career, or embark on a completely new path? Whatever your motivation, a postgraduate degree from the School of Physics and Astronomy can help you achieve your ambitions.

The MSc Physics is available in three different pathways: Particle Physic, Theoretical Physics and Condensed Matter Physics. The School of Physics and Astronomy also offers an MSc in Astrophysics and a PGCert in Astronomy and Astrophysics.

Programme outcomes

The aim of the programme is to deepen your understanding of contemporary theoretical physics, covering advanced concepts and techniques, leaving you well prepared for further doctoral level study and research. The programme will also enable you to develop skills transferable to a wide range of other careers.

This programme will:

Teach you the fundamental laws and physical principles, along with their applications, in your chosen area of physics.
Introduce you to research methodology, and how to manage your own research, making use of journal articles and other primary sources.
Allow you to communicate complex scientific ideas, concisely, accurately and informatively.
Instruct you how to use mathematical analysis to model physical behaviour and interpret the mathematical descriptions of physical phenomena.

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The Physics department at the University of Groningen has a long-standing tradition of high-level research, with the highlight the Nobel Prize awarded to Frits Zernike in 1953. Read more
The Physics department at the University of Groningen has a long-standing tradition of high-level research, with the highlight the Nobel Prize awarded to Frits Zernike in 1953.

The Physics department offers a Master's degree programme which is open to (foreign) students who already have a solid background in physics and are eager to expand their knowledge and experience in an environment of modern physics research. The goal of the Master's degree programme in Physics is to train excellent researchers in the field of materials science, subatomic physics, isotope physics or theoretical physics.

The programme offers the following specialisations:
* Quantum Universe
* Advanced Materials

In the second year of your training you conduct a major research project matching the field of your specialisation.

Why in Groningen?

- Wide spectrum of high-level research in Physics and related sciences
- Physics field in Groningen has CHE Excellence Label
- Our Materials Science Research ranks 4th in the THES world's Top 10 institutes in material science

Job perspectives

The Master's programme in Physics is primarily meant for students who want to become researchers. Most graduates will proceed with a PhD research project after their Master's programme, either in Groningen or elsewhere. Nevertheless, many physicists who have trained as researchers will find jobs that are less explicitly oriented towards research. This is because training as a researcher in physics also develops general competences that make graduates highly versatile.

During the Master's degree programme, teamwork, communication and presentation are important qualities. In many cases considerable IT skills are developed. In practice, physics graduates can be found in consultancy firms, in process management, in commercial positions, in financial jobs or as teachers.

Job examples

- PhD research position
- Consultant
- Process manager
- Teacher
- Financial jobs

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Why a Physics MSc?. Physics has always remained and still is at the center of science and technology. The laws of physics that are reached through observations and careful experimentation find applications from the subatomic particles to the astronomic formations such as stars and galaxies. Read more

Why a Physics MSc?

Physics has always remained and still is at the center of science and technology. The laws of physics that are reached through observations and careful experimentation find applications from the subatomic particles to the astronomic formations such as stars and galaxies. On the other hand, design of advanced technology materials, fabrication of semiconductor devices, the development of optical communication systems have all evolved as applications of physics.

Our department has both theoretical and experimental research activites. Quantum information theory, gravitation and condensed matter physics are among our theoretical research interests.

On the experimental research side, we have three advanced laboratories where we focus on solid state lasers, optoelectronic and nano-photonic materials and devices.

Our M. Sc. Program aims at teaching fundamental physics at a high level and coupling this knowledge with a research experience in either theoretical or applied physics depending on the interests of the student.

Current faculty projects and research interests:

• Photonic and Laser Materials

• Microphotonics

• Nanophotonics

• Gravitation, Cosmology, and Numerical Relativity

• Mathematical Physics

• Quantum Mechanics and Quantum Information Theory

• Theoretical High Energy Physics

• Quantum Optics, atomic, molecular and optical physics

• Statistical mechanics of biophysical systems

Laboratories



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The School offers a two-year Master’s degree in Physics in partnership with the South East Physics Network (SEPnet) which comprises the universities of Kent, Portsmouth, Queen Mary London, Royal Holloway London, Southampton, Surrey and Sussex. Read more
The School offers a two-year Master’s degree in Physics in partnership with the South East Physics Network (SEPnet) which comprises the universities of Kent, Portsmouth, Queen Mary London, Royal Holloway London, Southampton, Surrey and Sussex.

The programme involves both a taught and research component.

Key benefits

This is a unique opportunity to join the only programme of its kind in the UK and to tailor it to your individual needs. Here are just some of the benefits:

• You can choose to study at any one of the seven universities within the SEPnet consortium. This offers great flexibility and variety - you can even change location for your second year.
• Through events and state-of-the-art video conferencing, you’ll benefit from the combined facilities, specialist knowledge and brilliant minds at all of the universities.
• Our European Masters is designed similarly to Erasmus and Socrates programmes.
• Recognised by European employers and equivalent to 120 ECTS credits, you’ll be qualified to pursue a career in physics or take on a PhD anywhere in the world.
• Our graduates are highly sought after by global employers which opens up a whole world of possibilities.

Visit the website: https://www.kent.ac.uk/courses/postgraduate/16/physics-euromasters

Course detail

Spend a year studying at your choice of seven world-class universities in the South of England that are at the forefront of pioneering research from nanoscales to cosmology, from experiments to theory. Then spend a year in research working with some of the finest minds in physics on groundbreaking research projects such as ATLAS and LOFAR that push the boundaries of science.

In the first year, you will follow a taught Master’s course, which includes specialised research, and in the second year you will undertake an advanced research project with the option to change locations to a SEPnet partner university or research institution. This may include Cern, Switzerland, the UK’s Rutherford Appleton Laboratory, ISIS, Diamond or NPL. The School of Physical Sciences at Kent offers EuroMasters research strands in Atomic and Condensed Matter and Astrophysics.

Purpose

Study the European way: the MSc in Physics (EuroMasters) is fully compatible with the European Credit Transfer Accumulation System across the European Union and other collaborating European countries, and qualifies students to pursue a PhD or a career in physics upon completion. It is also open to UK entrants.

Applications

Although the delivery of this programme is consistent, the criteria, application process and scholarship opportunities will depend on the university you want to study it at in your first year. They are:

• Queen Mary - University of London
• Royal Holloway - University of London
• University of Kent
• University of Portsmouth
• University of Southampton
• University of Surrey
• University of Sussex

So, to discover more about our programme, scholarship and research projects, click the 'visit website' link below.

Careers

All programmes in the School of Physical Sciences equip you with the tools you need to conduct research, solve problems, communicate effectively and transfer skills to the workplace, which means our graduates are always in high demand. Our links with industry not only provide you with the opportunity to gain work experience during your degree, but also equip you with the general and specialist skills and knowledge needed to succeed in the workplace.

Typical employment destinations for graduates from the physics programmes include power companies, aerospace, defence, optoelectronics and medical industries. Typical employment destinations for graduates from our forensic science and chemistry programmes include government agencies, consultancies, emergency services, laboratories, research or academia.

How to apply: https://www.kent.ac.uk/courses/postgraduate/apply/

Why study at The University of Kent?

- Shortlisted for University of the Year 2015
- Kent has been ranked fifth out of 120 UK universities in a mock Teaching Excellence Framework (TEF) exercise modelled by Times Higher Education (THE).
- In the Research Excellence Framework (REF) 2014, Kent was ranked 17th* for research output and research intensity, in the Times Higher Education, outperforming 11 of the 24 Russell Group universities
- Over 96% of our postgraduate students who graduated in 2014 found a job or further study opportunity within six months.
Find out more: https://www.kent.ac.uk/courses/postgraduate/why/

Postgraduate scholarships and funding

We have a scholarship fund of over £9 million to support our taught and research students with their tuition fees and living costs. Find out more: https://www.kent.ac.uk/scholarships/postgraduate/

English language learning

If you need to improve your English before and during your postgraduate studies, Kent offers a range of modules and programmes in English for Academic Purposes (EAP). Find out more here: https://www.kent.ac.uk/courses/postgraduate/international/english.html

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Research degrees may be undertaken in the three main areas of research interest in the Laboratory. The growing number of academic staff are supported in their research by the technical staff and post-doctoral research fellows. Read more
Research degrees may be undertaken in the three main areas of research interest in the Laboratory. The growing number of academic staff are supported in their research by the technical staff and post-doctoral research fellows.

We make every attempt to allocate you to a supervisor directly in your field of interest, consistent with available funding and staff loading. When you apply, please give specific indications of your research interest – including, where appropriate, the member(s) of staff you wish to work with – and whether you are applying for a studentship or propose to be self-funded.

Visit the website https://www.kent.ac.uk/courses/postgraduate/212/physics

About The School of Physical Sciences

The School offers postgraduate students the opportunity to participate in groundbreaking science in the realms of physics, chemistry, forensics and astronomy. With strong international reputations, our staff provide plausible ideas, well-designed projects, research training and enthusiasm within a stimulating environment. Recent investment in modern laboratory equipment and computational facilities accelerates the research.

The School maintains a focus on progress to ensure each student is able to compete with their peers in their chosen field. We carefully nurture the skills, abilities and motivation of our students which are vital elements in our research activity. We offer higher degree programmes in chemistry and physics (including specialisations in forensics, astronomy and space science) by research. We also offer taught programmes in Forensic Science, studied over one year full-time, and a two-year European-style Master’s in Physics.

Our principal research covers a wide variety of topics within physics, astronomy and chemistry, ranging from specifically theoretical work on surfaces and interfaces, through mainstream experimental condensed matter physics, astrobiology, space science and astrophysics, to applied areas such as biomedical imaging, forensic imaging and space vehicle protection. We scored highly in the most recent Research Assessment Exercise, with 25% of our research ranked as “world-leading” and our Functional Materials Research Group ranked 2nd nationally in the Metallurgy and Materials discipline.

Study support

- Postgraduate resources

The University has good facilities for modern research in physical sciences. Among the major instrumentation and techniques available on the campus are NMR spectrometers (including solutions at 600 MHz), several infrared and uvvisible spectrometers, a Raman spectrometer, two powder X-ray diffractometers, X-ray fluorescence, atomic absorption in flame and graphite furnace mode, gel-permeation chromatography, gaschromatography, analytical and preparative highperformance liquid chromatography (including GC-MS and HPLC-MS), mass spectrometry (electrospray and MALDI), scanning electron microscopy and EDX, various microscopes (including hot-stage), differential scanning calorimetry and thermal gravimetric analysis, dionex analysis of anions and automated CHN analysis. For planetary science impact studies, there is a two-stage light gas gun.

- Interdisciplinary approach

Much of the School’s work is interdisciplinary and we have successful collaborative projects with members of the Schools of Biosciences, Computing and Engineering and Digital Arts at Kent, as well as an extensive network of international collaborations.

- National and international links

The School is a leading partner in the South East Physics Network (SEPnet), a consortium of seven universities in the south-east, acting together to promote physics in the region through national and international channels. The School benefits through the £12.5 million of funding from the Higher Education Funding Council for England (HEFCE), creating new facilities and resources to enable us to expand our research portfolio.

The School’s research is well supported by contracts and grants and we have numerous collaborations with groups in universities around the world. We have particularly strong links with universities in Germany, France, Italy and the USA. UK links include King’s College, London and St Bartholomew’s Hospital, London. Our industrial partners include British Aerospace, New York Eye and Ear Infirmary, and Ophthalmic Technology Inc, Canada. The universe is explored through collaborations with NASA, ESO and ESA scientists.

- Dynamic publishing culture

Staff publish regularly and widely in journals, conference proceedings and books. Among others, they have recently contributed to: Nature; Science; Astrophysical Journal; Journal of Polymer Science; Journal of Materials Chemistry; and Applied Optics.

- Researcher Development Programme

Kent's Graduate School co-ordinates the Researcher Development Programme (http://www.kent.ac.uk/graduateschool/skills/programmes/tstindex.html) for research students, which includes workshops focused on research, specialist and transferable skills. The programme is mapped to the national Researcher Development Framework and covers a diverse range of topics, including subjectspecific research skills, research management, personal effectiveness, communication skills, networking and teamworking, and career management skills.

Careers

All programmes in the School of Physical Sciences equip you with the tools you need to conduct research, solve problems, communicate effectively and transfer skills to the workplace, which means our graduates are always in high demand. Our links with industry not only provide you with the opportunity to gain work experience during your degree, but also equip you with the general and specialist skills and knowledge needed to succeed in the workplace.

Typical employment destinations for graduates from the physics programmes include power companies, aerospace, defence, optoelectronics and medical industries. Typical employment destinations for graduates from our forensic science and chemistry programmes include government agencies, consultancies, emergency services, laboratories, research or academia.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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The Master of Science program offers students in a wide range of disciplines the opportunity to earn a master’s degree by writing a thesis and successfully completing a limited number of courses. Read more
The Master of Science program offers students in a wide range of disciplines the opportunity to earn a master’s degree by writing a thesis and successfully completing a limited number of courses. The number and details of the courses are determined within the first semester of the student's program.

Students may complete their degrees in either a full- or part-time capacity. Full-time students complete a 24-month program while part-time students complete a 48-month program. Part-time students will normally complete all required course work in the first 24 months, with the subsequent months committed to continued research and production of the thesis.

Although degrees are awarded in specific disciplines, the program is administered centrally by the School of Graduate Studies, rather than by individual departments or faculties/schools.

Graduate degrees traditionally have been awarded for the successful completion of a satisfactory thesis. The thesis route expresses the fundamental tradition of academic scholarship. It also relates to the University’s undergraduate programs, because the creation of a thesis in any discipline calls for a range of skills which are central to the liberal education tradition, including analysis and synthesis of ideas, empirical investigations, the construction and articulation of arguments, and writing skills.

Because of the nature of the M.Sc. program, the thesis forms the central requirement of the program. At the master’s level, a thesis involves close collaboration between supervisor and student. Consequently, it is necessary for a candidate to establish contact with potential supervisors prior to application for admission. Candidates seeking potential supervisors should contact either the relevant academic department or the School of Graduate Studies.

Individualize Your Graduate Experience

The University of Lethbridge recognizes the importance of quality graduate education for students and offers graduate degrees in diverse disciplines. Within the Department of Physics & Astronomy these include:

-Master of Science (MSc) in Physics
-Individualized Multidisciplinary Major (MA or MSc)

Why study at the University of Lethbridge?

As a graduate student at the University of Lethbridge, you’ll find yourself at the centre of a student-focused environment that nurtures innovation, critical thinking and creativity.

The University of Lethbridge is one of Canada’s top-ranked universities and leading research institutions.

At the foundation of our graduate programs is a multidisciplinary and personalized experience. A collaborative environment is encouraged between faculty and students. This means you have flexibility in decisions regarding the research and learning path you take.

At the U of L, we are committed to helping every one of our students thrive. From aiding with financial support to one-on-one mentorship to individualized career advice, you’ll find support every step of the way.

When you graduate, you will have the confidence you need to succeed in whatever you do, whether that means pursuing further education, teaching in an academic setting or establishing a professional career.

We’re here to help as you find the answers to your questions. As Alberta’s Destination University, the U of L gives you room to think, create and explore, providing a university experience unlike any other.

How to apply

In order to apply, you will need to provide the following documentation:

• Academic Transcripts
• Curriculum Vitae
• Three Letters of Reference
• Letter of Intent
• English Language Proficiency (ELP)

All applications and supporting documents must be provided through the online portal: https://www.uleth.ca/future-student/graduate-studies/apply

Co-operative Education & Internships Option

The Co-operative Education/Internship Option is available to students for the Master of Arts (MA) and Master of Science (MSc) programs. Co-operative education is an educational model that formally integrates academic study at the master’s level with relevant, paid work experience in appropriate employment fields such as government, institutions, and industry. The University, the employer, and the student are in partnership to ensure an enriching experience toward the student's professional development.

For more information, see the website: http://www.uleth.ca/artsci/coop/co-operative-education-internship-option-graduate-studies

Funding

Find information on Scholarships here http://www.uleth.ca/graduate-studies/award-opportunities

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This MSc programme is aimed at students who already have a degree in Physics and wish to develop their knowledge and understanding to Masters level via a structured, taught programme. Read more
This MSc programme is aimed at students who already have a degree in Physics and wish to develop their knowledge and understanding to Masters level via a structured, taught programme. On completion of the programme, you will be equipped with the advanced skills necessary for high-level entry to the workplace as a professional physicist, or to move comfortably into PhD research, at a level that is at least equivalent to our MSci students on graduation.

Postgraduate Student Administrator, School of Physics
HH Wills Physics Laboratory
Tyndall Avenue
Bristol
BS8 1TL

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The MSc by Research in Applied Physics and Materials enables students to pursue a one year individual programme of research. The MSc by Research would normally terminate after a year. Read more

The MSc by Research in Applied Physics and Materials enables students to pursue a one year individual programme of research. The MSc by Research would normally terminate after a year. However, under appropriate circumstances, this first year of research can also be used in a progression to Year 2 of a PhD degree. 

As a research student in Applied Physics and Materials, you will be fully integrated into one of our established research groups and participate in research activities such as seminars, workshops, laboratories, and field work. 

Key Features of Applied Physics and Materials

Swansea is a research led University to which the Physics department makes a significant contribution, meaning that as a Postgraduate Physics Student you will benefit from the knowledge and skills of internationally renowned academics.

The Department received top ratings of 4* and 3* in the 2008 RAE, which classified our research as World-leading or Internationally excellent in terms of its originality, significance and rigour.

The three main research groups within the Department of Physics currently focus on the following areas of research:

Applied Physics and Materials Group

  • Next Generation Solar Cells
  • Materials and Devices for Photodetection
  • Physics of Next Generation Semiconductors
  • Bioelectronics
  • Material Physics
  • Biophysics
  • Novel sensors for medicine 

Atomic, Molecular and Quantum Physics Group

  • Antihydrogen, positronium and positrons
  • Quantum control
  • Cold atoms and quantum optics
  • Nano-scale physics and the life sciences
  • Analytical laser spectroscopy unit
  • Ultrafast Dynamics, Imaging and Microscopy
  • Quantum Computation and Simulation
  • Quantum Control and Optomechanics 

Particle Physics And Cosmology Theory Group

  • Integrability and AdS/CFT
  • Higher spin holography
  • Dense quark matter at strong coupling and gauge/string duality
  • Quantum fields in curved spacetime
  • Theoretical cosmology
  • Amplitudes in gauge and supergravity theories
  • Non-abelian T-duality and supergravity solutions
  • Holography and physics beyond the Standard Model
  • Large-N gauge theories, supersymmetry and duality
  • Lattice studies of strongly interacting systems
  • Lattice QCD at nonzero temperature
  • Dense quark matter and the sign problem
  • High-performance computing

Applied Physics and Materials Structure

The Physics Department is always keen to attract high-quality postgraduate students to join our research groups.

All Physics Research Degrees take 12 months of study, including the dissertation. For MSc by Research programmes you will be guided by internationally leading researchers through an extended one-year individual research project. There is no taught element.

The MSc by Research in Applied Physics and Materials degree enables you to pursue a one year individual programme of research and would normally terminate after a year. However, under appropriate circumstances, this first year of research can also be used in a progression to Year 2 of a PhD degree. 

The Applied Physics and Materials programme has a recommended initial research training module (Science Skills & Research Methods), but otherwise has no taught element and is most suitable for you if you have an existing background in geography or cognate discipline and are looking to pursue a wholly research-based programme of study.

Links with Industry

Our two research groups, Particle Physics Theory (PPT) and Atomic, Molecular and Quantum Physics (AMQP), deliver impact with commercial benefits both nationally and internationally, complemented by a public engagement programme with a global reach. 

Economic impacts are realised by the Department’s Analytical Laser Spectroscopy Unit (ALSU) which, since 1993, has worked with companies developing products eventually sold to customers in the nuclear power industry and military, both in the UK and overseas, and in the global aerospace industry. Computational particle physics work performed by the PPT group has spun-off a computer benchmarking tool, BSMBench, used by several leading software outfits, and has led to the establishment of a start-up company.

The AMQP group’s work on trapping and investigating antihydrogen has generated great media interest and building on this we have developed a significant and on-going programme of public engagement. Activities include the development of a bespoke software simulator (Hands on Antihydrogen) of the antimatter experiment for school students.

Facilities

As a postgraduate student in the Department of Physics you will have access to the following Specialist Facilities:

  • Low-energy positron beam with a high field superconducting magnet for the study of
  • positronium
  • CW and pulsed laser systems
  • Scanning tunnelling electron and nearfield optical microscopes
  • Raman microscope
  • CPU parallel cluster
  • Access to the IBM-built ‘Blue C’ Super computer at Swansea University and is part of the shared use of the teraflop QCDOC facility based in Edinburgh

Research

The results of the Research Excellence Framework (REF) 2014 show that over 80\% of the research outputs from both the experimental and theoretical groups were judged to be world-leading or internationally excellent.

Research groups include:

Atomic, Molecular and Quantum Physics Group

The Atomic, Molecular and Quantum Physics Group comprises academic staff, postdoctoral officers and postgraduate research students. Its work is supported by grants from EPSRC, the EU, The Royal Society, the Higher Education Funding Council for Wales and various industrial and government sources. There are two main fields of research: Atomic, Molecular and Laser Physics and Nanoscale Physics.

Particle Physics And Cosmology Theory Group

The Particle Physics and Cosmology Theory Group has fifteen members of staff, in addition to postdoctoral officers and research students. It is the fourth largest particle physics theory group in the UK, and is supported mainly by STFC, but also has grants from EPSRC, the EU, Royal Society and Leverhulme Trust. The group recently expanded by hiring two theoretical cosmologists (Ivonne Zavala and Gianmassimo Tasinato). There are five main fields of research: Quantum Field Theory, Strings, Lattice Field Theory, Beyond the Standard Model Physics and Theoretical Cosmology.

Applied Physics and Materials Group

The Applied Physics and Materials (APM) Group has been very recently established at our department and is supported by grants from the European Union, Welsh Government, National Science Foundation, Australian Research Council, Welsh European Funding Office, and EPSRC. Its main areas of research range from Biophotonics, covering nano- and micro-structured materials, biomimetics, analyte sensing and light-tissue interaction, over Nanomedicine to Sustainable Advanced Materials, such as Next generation semiconductors, bioelectronic materials and devices, optoelectronics including photodetection, solar energy conversion, advanced electro-optics and transport physics of disordered solids.



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The MSc by Research Experimental Physics enables students to pursue a one year individual programme of research. The MSc by Research would normally terminate after a year. Read more

The MSc by Research Experimental Physics enables students to pursue a one year individual programme of research. The MSc by Research would normally terminate after a year. However, under appropriate circumstances, this first year of research can also be used in a progression to Year 2 of a PhD degree. 

As a research student in Experimental Physics, you will be fully integrated into one of our established research groups and participate in research activities such as seminars, workshops, laboratories, and field work. 

Key Features of Experimental Physics

Swansea is a research led University to which the Physics department makes a significant contribution, meaning that as a Postgraduate Physics Student you will benefit from the knowledge and skills of internationally renowned academics.

The Department received top ratings of 4* and 3* in the 2008 RAE, which classified our research as World-leading or Internationally excellent in terms of its originality, significance and rigour.

The three main research groups within the Department of Physics currently focus on the following areas of research:

Applied Physics and Materials Group

  • Next Generation Solar Cells
  • Materials and Devices for Photodetection
  • Physics of Next Generation Semiconductors
  • Bioelectronics
  • Material Physics
  • Biophysics
  • Novel sensors for medicine 

Atomic, Molecular and Quantum Physics Group

  • Antihydrogen, positronium and positrons
  • Quantum control
  • Cold atoms and quantum optics
  • Nano-scale physics and the life sciences
  • Analytical laser spectroscopy unit
  • Ultrafast Dynamics, Imaging and Microscopy
  • Quantum Computation and Simulation
  • Quantum Control and Optomechanics 

Particle Physics And Cosmology Theory Group

  • Integrability and AdS/CFT
  • Higher spin holography
  • Dense quark matter at strong coupling and gauge/string duality
  • Quantum fields in curved spacetime
  • Theoretical cosmology
  • Amplitudes in gauge and supergravity theories
  • Non-abelian T-duality and supergravity solutions
  • Holography and physics beyond the Standard Model
  • Large-N gauge theories, supersymmetry and duality
  • Lattice studies of strongly interacting systems
  • Lattice QCD at nonzero temperature
  • Dense quark matter and the sign problem
  • High-performance computing

Experimental Physics Structure

The Physics Department is always keen to attract high-quality postgraduate students to join our research groups.

All Physics Research Degrees take 12 months of study, including the dissertation. For MSc by Research programmes you will be guided by internationally leading researchers through an extended one-year individual research project. There is no taught element.

The MSc by Research in Experimental Physics degree enables you to pursue a one year individual programme of research and would normally terminate after a year. However, under appropriate circumstances, this first year of research can also be used in a progression to Year 2 of a PhD degree. 

The Experimental Physics programme has a recommended initial research training module (Science Skills & Research Methods), but otherwise has no taught element and is most suitable for you if you have an existing background in geography or cognate discipline and are looking to pursue a wholly research-based programme of study.

Links with Industry

Our two research groups, Particle Physics Theory (PPT) and Atomic, Molecular and Quantum Physics (AMQP), deliver impact with commercial benefits both nationally and internationally, complemented by a public engagement programme with a global reach. 

Economic impacts are realised by the Department’s Analytical Laser Spectroscopy Unit (ALSU) which, since 1993, has worked with companies developing products eventually sold to customers in the nuclear power industry and military, both in the UK and overseas, and in the global aerospace industry. Computational particle physics work performed by the PPT group has spun-off a computer benchmarking tool, BSMBench, used by several leading software outfits, and has led to the establishment of a start-up company.

The AMQP group’s work on trapping and investigating antihydrogen has generated great media interest and building on this we have developed a significant and on-going programme of public engagement. Activities include the development of a bespoke software simulator (Hands on Antihydrogen) of the antimatter experiment for school students.

Facilities

As a postgraduate student in the Department of Physics you will have access to the following Specialist Facilities:

  • Low-energy positron beam with a high field superconducting magnet for the study of
  • positronium
  • CW and pulsed laser systems
  • Scanning tunnelling electron and nearfield optical microscopes
  • Raman microscope
  • CPU parallel cluster
  • Access to the IBM-built ‘Blue C’ Super computer at Swansea University and is part of the shared use of the teraflop QCDOC facility based in Edinburgh

Research

The results of the Research Excellence Framework (REF) 2014 show that over 80\% of the research outputs from both the experimental and theoretical groups were judged to be world-leading or internationally excellent.

Research groups include:

Atomic, Molecular and Quantum Physics Group

The Atomic, Molecular and Quantum Physics Group comprises academic staff, postdoctoral officers and postgraduate research students. Its work is supported by grants from EPSRC, the EU, The Royal Society, the Higher Education Funding Council for Wales and various industrial and government sources. There are two main fields of research: Atomic, Molecular and Laser Physics and Nanoscale Physics.

Particle Physics And Cosmology Theory Group

The Particle Physics and Cosmology Theory Group has fifteen members of staff, in addition to postdoctoral officers and research students. It is the fourth largest particle physics theory group in the UK, and is supported mainly by STFC, but also has grants from EPSRC, the EU, Royal Society and Leverhulme Trust. The group recently expanded by hiring two theoretical cosmologists (Ivonne Zavala and Gianmassimo Tasinato). There are five main fields of research: Quantum Field Theory, Strings, Lattice Field Theory, Beyond the Standard Model Physics and Theoretical Cosmology.

Applied Physics and Materials Group

The Applied Physics and Materials (APM) Group has been very recently established at our department and is supported by grants from the European Union, Welsh Government, National Science Foundation, Australian Research Council, Welsh European Funding Office, and EPSRC. Its main areas of research range from Biophotonics, covering nano- and micro-structured materials, biomimetics, analyte sensing and light-tissue interaction, over Nanomedicine to Sustainable Advanced Materials, such as Next generation semiconductors, bioelectronic materials and devices, optoelectronics including photodetection, solar energy conversion, advanced electro-optics and transport physics of disordered solids.



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The MSc by Research Theoretical Physics enables students to pursue a one year individual programme of research. The MSc by Research would normally terminate after a year. Read more

The MSc by Research Theoretical Physics enables students to pursue a one year individual programme of research. The MSc by Research would normally terminate after a year. However, under appropriate circumstances, this first year of research can also be used in a progression to Year 2 of a PhD degree. 

As a research student in Theoretical Physics, you will be fully integrated into one of our established research groups and participate in research activities such as seminars, workshops, laboratories, and field work. 

Key Features of Experimental Physics

Swansea is a research led University to which the Physics department makes a significant contribution, meaning that as a Postgraduate Physics Student you will benefit from the knowledge and skills of internationally renowned academics.

The Department received top ratings of 4* and 3* in the 2008 RAE, which classified our research as World-leading or Internationally excellent in terms of its originality, significance and rigour.

The three main research groups within the Department of Physics currently focus on the following areas of research:

Applied Physics and Materials Group

  • Next Generation Solar Cells
  • Materials and Devices for Photodetection
  • Physics of Next Generation Semiconductors
  • Bioelectronics
  • Material Physics
  • Biophysics
  • Novel sensors for medicine 

Atomic, Molecular and Quantum Physics Group

  • Antihydrogen, positronium and positrons
  • Quantum control
  • Cold atoms and quantum optics
  • Nano-scale physics and the life sciences
  • Analytical laser spectroscopy unit
  • Ultrafast Dynamics, Imaging and Microscopy
  • Quantum Computation and Simulation
  • Quantum Control and Optomechanics 

Particle Physics And Cosmology Theory Group

  • Integrability and AdS/CFT
  • Higher spin holography
  • Dense quark matter at strong coupling and gauge/string duality
  • Quantum fields in curved spacetime
  • Theoretical cosmology
  • Amplitudes in gauge and supergravity theories
  • Non-abelian T-duality and supergravity solutions
  • Holography and physics beyond the Standard Model
  • Large-N gauge theories, supersymmetry and duality
  • Lattice studies of strongly interacting systems
  • Lattice QCD at nonzero temperature
  • Dense quark matter and the sign problem
  • High-performance computing

Theoretical Physics Structure

The Physics Department is always keen to attract high-quality postgraduate students to join our research groups.

All Physics Research Degrees take 12 months of study, including the dissertation. For MSc by Research programmes you will be guided by internationally leading researchers through an extended one-year individual research project. There is no taught element.

The MSc by Research in Theoretical Physics degree enables you to pursue a one year individual programme of research and would normally terminate after a year. However, under appropriate circumstances, this first year of research can also be used in a progression to Year 2 of a PhD degree. 

The Theoretical Physics programme has a recommended initial research training module (Science Skills & Research Methods), but otherwise has no taught element and is most suitable for you if you have an existing background in geography or cognate discipline and are looking to pursue a wholly research-based programme of study.

Links with Industry

Our two research groups, Particle Physics Theory (PPT) and Atomic, Molecular and Quantum Physics (AMQP), deliver impact with commercial benefits both nationally and internationally, complemented by a public engagement programme with a global reach. 

Economic impacts are realised by the Department’s Analytical Laser Spectroscopy Unit (ALSU) which, since 1993, has worked with companies developing products eventually sold to customers in the nuclear power industry and military, both in the UK and overseas, and in the global aerospace industry. Computational particle physics work performed by the PPT group has spun-off a computer benchmarking tool, BSMBench, used by several leading software outfits, and has led to the establishment of a start-up company.

The AMQP group’s work on trapping and investigating antihydrogen has generated great media interest and building on this we have developed a significant and on-going programme of public engagement. Activities include the development of a bespoke software simulator (Hands on Antihydrogen) of the antimatter experiment for school students.

Facilities

As a postgraduate student in the Department of Physics you will have access to the following Specialist Facilities:

  • Low-energy positron beam with a high field superconducting magnet for the study of
  • positronium
  • CW and pulsed laser systems
  • Scanning tunnelling electron and nearfield optical microscopes
  • Raman microscope
  • CPU parallel cluster
  • Access to the IBM-built ‘Blue C’ Super computer at Swansea University and is part of the shared use of the teraflop QCDOC facility based in Edinburgh

Research

The results of the Research Excellence Framework (REF) 2014 show that over 80\% of the research outputs from both the experimental and theoretical groups were judged to be world-leading or internationally excellent.

Research groups include:

Atomic, Molecular and Quantum Physics Group

The Atomic, Molecular and Quantum Physics Group comprises academic staff, postdoctoral officers and postgraduate research students. Its work is supported by grants from EPSRC, the EU, The Royal Society, the Higher Education Funding Council for Wales and various industrial and government sources. There are two main fields of research: Atomic, Molecular and Laser Physics and Nanoscale Physics.

Particle Physics And Cosmology Theory Group

The Particle Physics and Cosmology Theory Group has fifteen members of staff, in addition to postdoctoral officers and research students. It is the fourth largest particle physics theory group in the UK, and is supported mainly by STFC, but also has grants from EPSRC, the EU, Royal Society and Leverhulme Trust. The group recently expanded by hiring two theoretical cosmologists (Ivonne Zavala and Gianmassimo Tasinato). There are five main fields of research: Quantum Field Theory, Strings, Lattice Field Theory, Beyond the Standard Model Physics and Theoretical Cosmology.

Applied Physics and Materials Group

The Applied Physics and Materials (APM) Group has been very recently established at our department and is supported by grants from the European Union, Welsh Government, National Science Foundation, Australian Research Council, Welsh European Funding Office, and EPSRC. Its main areas of research range from Biophotonics, covering nano- and micro-structured materials, biomimetics, analyte sensing and light-tissue interaction, over Nanomedicine to Sustainable Advanced Materials, such as Next generation semiconductors, bioelectronic materials and devices, optoelectronics including photodetection, solar energy conversion, advanced electro-optics and transport physics of disordered solids.



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From the discovery of new energy sources to the design of enzymes to produce new medicines, most cutting-edge research requires knowledge of molecular processes. Read more

From the discovery of new energy sources to the design of enzymes to produce new medicines, most cutting-edge research requires knowledge of molecular processes. The two year MSc Molecular Life Sciences study programme focuses on the molecular aspects within the fields of nutrition, health, nature and the living environment. 

This MSc programme consists of four specialisations that are based upon a unique combination of three main disciplines: biology, chemistry and physics. Research is an important part of the programme and there is a wide variety of research subjects to choose from in order to carry out your thesis and internship during your second year. The combination of chemistry, physics and biology is especially appealing to many employers.

Programme summary

Discoveries through chemistry are based on research conducted by motivated people. Furthermore, a combination of disciplines is needed to be at the forefront of the field of science. Wageningen University offers all that and more. Wageningen University graduates are able to conduct high level research and perform in an interdisciplinary environment. It is here that theory is put to practice and it will give you a strong background for employment in industry, government or universities.

On the programme of Molecular Life Sciences page you can find the general outline of the programme and more detailed information about courses, theses and internships.

Specialisations

Within the master's programme you can choose one of the following Specialisations to meet your personal interests.

Your future career

The labour market for Molecular Life Sciences graduates is still looking good: the large majority finds a job within a few months. About 80% starts a PhD research. In the Netherlands you get a salary for doing a PhD; in Dutch this job is called AIO = "assistant in opleiding". After finishing your PhD you get the Dutch Doctor title; you are allowed to put Dr. in front of your name. 

Read more about career perspectives and opportunities after finishing the programme.

Related programmes:

MSc Biotechnology 

MSc Food Technology 

MSc Bioinformatics

MSc Nutrition and Health

MSc Plant Biotechnology

MSc Biology



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The Masters in Physics. Nuclear Technology provides an understanding of the application of nuclear processes and technology to energy generation, medical physics and environmental monitoring, and at a level appropriate for a professional physicist. Read more

The Masters in Physics: Nuclear Technology provides an understanding of the application of nuclear processes and technology to energy generation, medical physics and environmental monitoring, and at a level appropriate for a professional physicist.

Why this programme

  • Physics and Astronomy at the University of Glasgow is ranked 3rd in Scotland (Complete University Guide 2017).
  • You will gain theoretical, experimental and computational skills necessary to analyse and solve advanced physics problems relevant to the theme of Nuclear Technology, providing an excellent foundation for a career of scientific leadership.
  • You will benefit from direct contact with our group of international experts who will teach you cutting-edge physics and supervise your projects.
  • With a 93% overall student satisfaction in the National Student Survey 2016, Physics and Astronomy at Glasgow continues to meet student expectations combining both teaching excellence and a supportive learning environment.
  • This programme has a September and January intake*. 

*For suitably qualified candidates

Programme structure

Modes of delivery of the MSc Physics: Nuclear Technology include lectures, seminars and tutorials and allow students the opportunity to take part in lab, project and team work.

Core courses include

  • Advanced data analysis
  • Detection and analysis of ionising radiation
  • Environmental radioactivity
  • Imaging and detectors
  • Nuclear power reactors
  • Research skills
  • Extended project

Optional courses include

  • Advanced electromagnetic theory
  • Computational physics laboratory
  • Dynamics, electrodynamics and relativity
  • Energy and environment
  • Medical imaging
  • Nuclear and particle physics
  • Nuclear physics
  • Relativistic quantum fields
  • Statistical mechanics

The programme in Physics: Nuclear technology lasts 1 year and contains a minimum of 180 credits. You will undertake a minimum of 120 credits in Semesters 1 and 2 and be assessed on these courses either via continuous assessment, or unseen examination in the May/June examination diet, or a combination thereof. The remaining 60 credits will take the form of an extended MSc project, carried out on a specific aspect of theoretical, computational or experimental physics which has current or potential application in the areas of nuclear technology, nuclear energy, radiation detection or environmental monitoring. You will conduct this project while embedded within a particular research group – under the direct supervision of a member of academic staff.

Your curriculum will be flexible and tailored to your prior experience and expertise, particular research interests and specific nature of the extended research project topic provisionally identified at the beginning of the MSc programme. Generally, however, courses taken in Semester 1 will focus on building core theoretical and experimental/computational skills relevant to the global challenge theme, while courses taken in Semester 2 will build key research skills (in preparation for the extended project).

Career prospects

Career opportunities in academic research, based in universities, research institutes, observatories and laboratory facilities; industrial research in a wide range of fields including energy and the environmental sector, IT and semiconductors, optics and lasers, materials science, telecommunications, engineering; banking and commerce; higher education.



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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Clinical Science (Medical Physics) at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Clinical Science (Medical Physics) at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

Medical physicists fill a special niche in the health industry. The role includes opportunities for laboratory work, basic and applied research, management and teaching, which offers a uniquely diverse career path. In addition there is satisfaction in contributing directly to patient treatment and care.

This three-year programme in Clinical Science (Medical Physics), hosted by the College of Medicine, builds on an existing collaboration with the NHS in providing the primary route for attaining the professional title of Clinical Scientist in the field of Medical Physics.

Key Features of MSc in Clinical Science (Medical Physics)

The Clinical Science (Medical Physics) programme is accredited by the NHS and provides the academic component of the Scientist Training Programme for medical physics trainees, within the Modernising Scientific Careers framework defined by the UK Department of Health, and offers students the chance to specialise in either radiotherapy physics or radiation safety. This Master’s degree in Clinical Science (Medical Physics) is only suitable for trainees sponsored by an NHS or an equivalent health care provider.

The MSc in Clinical Science (Medical Physics) is modular in structure, supporting integration of the trainee within the workplace. Students must obtain a total of 180 credits to qualify for the degree. This is made up of 120 credits of taught-course elements and a project that is worth 60 credits and culminates in a written dissertation.

The Clinical Science (Medical Physics) MSc is accredited by the Department of Health.

Modules

Modules on the Clinical Science (Medical Physics) MSc typically include:

• Introduction to Clinical Science

• Medical Imaging

• Nuclear Medicine and Diagnostic Imaging

• Radiation Protection

• Radiotherapy Physics

• Research Methods

• Advanced Radiotherapy

• Specialist Radiotherapy

• Advanced Radiation Safety

• Specialist Radiation Safety

Careers

The MSc in Clinical Science (Medical Physics) provides the main route for the professional qualification of Clinical Scientist in Medical Physics.

Additionally, the need for specific expertise in the use of medical radiation is enshrined in law. The Ionising Radiation (Medical Exposure) Regulations (IRMER) 2000 defines the role of Medical Physics Expert, required within any clinical context where radiation is being administered, either a diagnostic or therapeutic.

Links with industry

The close working relationship between Swansea University and the NHS in Wales, through the All-Wales Training Consortium for Medical Physics and Clinical Engineering, provides the ideal circumstances for collaborative teaching and research. The Consortium is recognised by the Welsh Government. A significant proportion of the teaching is delivered by NHS Clinical Scientists and other medical staff.

Facilities

The close proximity of Swansea University to Singleton Hospital, belonging to one of the largest health providers in Wales, Abertawe Bro Morgannwg University (ABMU) health board, as well as the Velindre NHS Trust, a strongly academic cancer treatment centre, provide access to modern equipment, and the highest quality teaching and research.

The Institute of Life Science (ILS) Clinical Imaging Suite has recently been completed and overlaps the University and Singleton Hospital campuses. It features adjoined 3T MRI and high-resolution CT imaging. ILS has clinical research of social importance as a focus, through links with NHS and industrial partners.

Research

Swansea University offers a vibrant environment in medically-oriented research. The Colleges of Medicine has strong research links with the NHS, spearheaded by several recent multimillion pound developments, including the Institute of Life Science (ILS) and the Centre for NanoHealth (CNH).

The University provides high-quality support for MSc student research projects. Students in turn make valuable progress in their project area, which has led to publications in the international literature or has instigated further research, including the continuation of research at the doctoral level.

The College of Medicine provides an important focus in clinical research and we have the experience of interacting with medical academics and industry in placing students in a wide variety of research projects.

Medical academics have instigated projects examining and developing bioeffect planning tools for intensity modulated radiotherapy and proton therapy and devices for improving safety in radiotherapy. Industry partners have utilised students in the evaluation of the safety of ventricular-assist devices, intense-pulsed-light epilators and in the development of novel MRI spectroscopic methods. The student join teams that are solving research problems at the cutting-edge of medical science.



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This two-year MSc is offered by Royal Holloway as part of its South East Physics Network Partnership (SEPnet). SEPnet is a consortium of six universities. Read more

This two-year MSc is offered by Royal Holloway as part of its South East Physics Network Partnership (SEPnet). SEPnet is a consortium of six universities: University of Kent, Queen Mary University of London, Royal Holloway University of London, University of Southampton, University of Surrey, and University of Sussex. This consortium consists of around 160 academics, with an exceptionally wide range of expertise linked with world-leading research.

The first year consists mainly of taught courses in the University of London; the second research year can be at Royal Holloway or one of the other consortium members. This is a unique opportunity to collaborate with physics research groups and partner institutions in both the UK and Europe. You will benefit from consortium led events as well as state of the art video conferencing. 

The Department of Physics at Royal Holloway is known internationally for its top-class research. Our staff carry out research at the cutting edge of Nanoscience and Nanotechnology, Experimental Quantum Computing, Quantum Matter at Low Temperatures, Theoretical Physics, and Biophysics, as well as other areas.

With access to some of the leading physics departments in the world, there is a wide choice of accommodation options, sporting facilities, international student organisations and careers services. South East England, with its close connections to continental Europe by air, Eurotunnel, and cross channel ferries, is an ideal environment for international students.

  • The course offers an incomparably wide range of options.
  • Royal Holloway's Physics Department has strong links with leading international facilities, including Rutherford Appleton and National Physical Laboratory, Oxford Instruments, CERN, ISIS and Diamond. 
  • We hold a regular series of colloquia and seminars on important research topics and host a number of guest lectures from external organisations.

Course structure

Year 1

All modules are optional

Year 2

  • Major Project

Optional modules

In addition to these mandatory course units there are a number of optional course units available during your degree studies. The following is a selection of optional course units that are likely to be available. Please note that although the College will keep changes to a minimum, new units may be offered or existing units may be withdrawn, for example, in response to a change in staff. Applicants will be informed if any significant changes need to be made.

Year 1

You will take six from the following:

  • Lie Groups and Lie Algebras
  • Quantum Theory
  • Statistical Mechanics
  • Phase Transitions
  • Advanced Quantum Theory
  • Advanced Topics in Statistical Mechanics
  • Relativistic Waves and Quantum Fields
  • Advanced Quantum Field Theory
  • Functional Methods in Quantum Field Theory
  • Advanced Topics in Classical Field Theory
  • Formation and Evolution of Stellar Clusters
  • Advanced Physical Cosmology
  • Atom and Photon Physics
  • Advanced Photonics
  • Quantum Computation and Communication
  • Quantum Electronics of Nanostructures
  • Molecular Physics
  • Particle Physics
  • Particle Accelerator Physics
  • Modelling Quantum Many-Body Systems
  • Order and Excitations in Condensed Matter
  • Theoretical Treatments of Nano-Systems
  • Physics at the Nanoscale
  • Electronic Structure Methods
  • Computer Simulation in Condensed Matter
  • Superfluids, Condensates and Superconductors
  • Advanced Condensed Matter
  • Standard Model Physics and Beyond
  • Nuclear Magnetic Resonance
  • Statistical Data Analysis
  • String Theory and Branes
  • Supersymmetry
  • Stellar Structure and Evolution
  • Cosmology
  • Relativity and Gravitation
  • Astroparticle Cosmology
  • Electromagnetic Radiation in Astrophysics
  • Planetary Atmospheres
  • Solar Physics
  • Solar System
  • The Galaxy
  • Astrophysical Plasmas
  • Space Plasma and Magnetospheric Physics
  • Extrasolar Planets and Astrophysical Discs
  • Environmental Remote Sensing
  • Molecular Biophysics
  • Cellular Biophysics
  • Theory of Complex Networks
  • Equilibrium Analysis of Complex Systems
  • Dynamical Analysis of Complex Systems
  • Mathematical Biology
  • Elements of Statistical Learning

Year 2

Only core modules are taken.

Teaching & assessment

This high quality European Masters programme follows the European method of study and involves a year of research working on pioneering projects.

Assessment is carried out by a variety of methods including coursework, examinations and a dissertation.

Your future career

This course equips you with the subject knowledge and a solid foundation for continued studies in physics, and many of our graduates have gone on to study for a PhD. 

On completion of the course graduates will have a systematic understanding of knowledge, and a critical awareness of current problems and/or new insights at the forefront of the discipline a comprehensive understanding of techniques applicable to their own research or advanced scholarship originality in the application of knowledge, together with a practical understanding of how established techniques of research and enquiry are used to create and interpret knowledge in the discipline.

Our graduates are highly employable and, in recent years, have entered many different physics-related areas, including careers in industry, information technology and finance.



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