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

The MSc by Research Antimatter Physics enables students to pursue a one year individual programme of research. The Antimatter Physics programme 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.

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.

The Physics Department carries out world-leading research in experimental and theoretical physics.

The Atomic, Molecular and Quantum Physics Group (AMQP) at Swansea University 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.

The Particle Physics Theory Group (PPT) has fourteen members of staff, as well as 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, the Royal Society and Leverhulme Trust.

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.



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

The MSc by Research Laser Physics enables students to pursue a one year individual programme of research. The Laser Physics programme 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.

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

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

Atomic, Molecular and Quantum Physics Group

Fundamental Atomic Physics

Condensed Matter and Material Physics

Analytical Laser Spectroscopy

Particle Physics Theory Group

String theory, quantum gravity and the AdS/CFT correspondence

Lattice gauge theories, QCD

Supersymmetric field theory, perturbative gauge theory

Field Theory in curved spacetime

Physics beyond the standard model

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 student of the Laser Physics programme 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 Physics Department carries out world-leading research in experimental and theoretical physics.

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:

AMQP 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.

PPT Group

The Particle Physics Theory Group has fourteen 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.



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

The MSc by Research Cold Atoms and Quantum Optics enables students to pursue a one year individual programme of research. The Cold Atoms and Quantum Optics programme 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 student of the Cold Atoms and Quantum Optics programme 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.

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.

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 Cold Atoms and Quantum Optics 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 Physics Department carries out world-leading research in experimental and theoretical physics.

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:

AMQP 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.

PPT Group

The Particle Physics Theory Group has fourteen 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.



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

The MSc by Research Nanotechnology (Physics) enables students to pursue a one year individual programme of research. The Nanotechnology (Physics) programme 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.

For MSc by Research in Nanotechnology (Physics) programme you will be guided by internationally leading researchers through an extended one-year individual research project. There is no taught element. The Nanotechnology (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.

As a student of the MSc by Research in Nanotechnology (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

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.

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 student of the MSc by Research in Nanotechnology (Physics) 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 Physics Department carries out world-leading research in experimental and theoretical physics.

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.

This MSc by Research in Nanotechnology comes under the Nano-physics and the life sciences research area at Swansea. The fundamental understanding of the electronic, structural, chemical and optical properties of materials on the nano-scale is essential for advances in nanotechnology, in particular the development of new devices via the incorporation of novel materials. Advances in experimental physics underpin these developments via characterisation and quantification of quantum phenomena which dominate at these length scales.

The Nanotechnology research concentrates on two main areas: determining properties of materials (e.g., graphene) on the nano-scale using scanning probe based techniques; the development of imaging and laser based spectroscopic techniques to study biological samples (e.g., imaging of cellular components and bacteria).



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

The MSc by Research Lattice Gauge Theory enables students to pursue a one year individual programme of research. The Lattice Gauge Theory programme 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.

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

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.

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 student of Lattice Gauge Theory programme 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 Physics Department carries out world-leading research in experimental and theoretical physics.

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:

AMQP 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.

PPT Group

The Particle Physics Theory Group has fourteen 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.



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

The MSc by Research Quantum Fields and String enables students to pursue a one year individual programme of research. The Quantum Fields & String programme 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 student of the MSc by Research in Quantum Fields and String 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

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.

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 student of the Quantum Fields and String programme 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 Physics Department carries out world-leading research in experimental and theoretical physics.

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:

AMQP 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.

PPT Group

The Particle Physics Theory Group has fourteen 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.



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

The MSc by Research Theoretical Particle Physics enables students to pursue a one year individual programme of research. The Theoretical Particle Physics programme 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 student of Theoretical Particle Physics programme 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

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.

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 Physics Department carries out world-leading research in experimental and theoretical physics.

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:

AMQP 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.

PPT Group

The Particle Physics Theory Group has fourteen 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.



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