Postgraduate research

Physics & AstronomyPhD/EngD/MPhil/MSc (Research)

Horse Head and Flame Nebula in the Hubble Palette

Current funded studentships

Studentships are available each year (from STFC, EPSRC and others). You should discuss opportunities with potential supervisors within the relevant research group listed below.

Application deadline for all studentships is 31 January 2024.

  • PhD:3-4 years full-time; 6-8 years part-time; Thesis of Max 80,000 words
  • MSc (Research):1-2 years full-time; 2-3 years part-time;
  • MPhil:2-3 years full-time; 3-4 years part-time;
  • EngD:4-5 years full-time; 8 years [for Optics and Photonics only] part-time;

Overview

Our strong collaborations with UK and international institutions contribute to an excellent environment for top quality research.

Research groups

Astronomy and astrophysics

We cover a wide range of topics, including solar and plasma physics, cosmology and radio astronomy. Much of our research in solar physics concentrates on the theory, diagnostics and observation of solar flares, complementing our work in more general plasma theory and atmospheric plasmas.

Our research in radio astronomy and cosmology ranges from low frequency astronomy in space to probing the distribution of dark matter with galaxy surveys.

Extreme Light

What could you do if you had a camera so fast that is can freeze light in motion? Or a quatum sensing device that can measure the path taken by a single photon with a precision of a single atom? We are developing the techonlogies that will enable new forms of imaging with applications ranging from seeing behind and through walls to quantum microscopy.

Imaging concepts

We conduct research into new imaging techniques at optical and radio-frequency wavelengths and work closely with collaborators in industry, biology and medicine to apply these techniques in real-world applications. Our main research fields are computational imaging, spectral imaging and biomedical imaging, particularly in the retina.

Institute for Gravitational Research

Our work includes a broad spectrum of research in and around the field of gravitational wave astronomy and cosmology. This includes:

  • the analysis and astrophysical interpretation of gravitational wave signals from the ground-based network of interferometric gravitational wave detectors including the LIGO observatories.
  • studies of precision novel interferometric sensing techniques to allow detectors to operate at and beyond the Standard Quantum Limit and the development of systems of ultra -low optical and mechanical loss for the suspensions of mirror test masses.

The group is also involved in the space-based LISA mission.

Materials and condensed matter physics

We study fundamental phenomena and find solutions for critical issues such as energy, healthcare and information technology. Our research is underpinned by our capabilities in advanced characterisation, theoretical modelling, computational simulation, and a long-standing reputation for the development of transmission electron microscopy techniques. The group facilities include: advanced materials preparation and characterisation, ferromagnetic resonance, scanning probe microscopy, and state of the art high resolution electron microscopy.

Nuclear & Hadron Physics

The group undertakes fundamental research into the structure of matter and understanding the processes of Quantum Chromodynamics (the strong nuclear interaction). We study the structure of nucleons (protons and neutrons) and also the spectrum of strongly interacting particles (hadrons). The group is involved at the highest level of international research in hadronic and nuclear physics, and in development of the latest detector technologies and analysis techniques for use in experiments. Our experimental programme is based in the US and Germany.

We also have a programme of applying nuclear physics techniques to applications in radioactive waste disposal, healthcare diagnostics and environmental monitoring.

Optics

We are best known for our work on optical angular momentum (where light beams can spin microscopic objects) and our development of optical tweezers (which use laser beams to manipulate the microscopic world). We also study how tiny prisms and lenses can create strange optical transformations and how optical beams interact with cold atoms and gases.

Quantum theory

Our research covers a range of topics in quantum theory, centred mostly on quantum information and quantum optics. We are interested in the foundations of quantum theory and especially he ways in which these appear in light-matter interactions. We work on:

  • quantum-limited measurements
  • the mechanical effects of light
  • the optics of chiral molecules
  • open systems
  • quantum thermodynamics.

We are theoretical physicists but we also enjoy working with experimentalists.

Experimental and theoretical particle physics

As part of several major international collaborations, we perform world-class research into fundamental particles and their interactions.

We are interested in phenomena that can be probed at the Large Hadron Collider at CERN as well as at future facilities. The theorists use the current Standard Model of particle physics, as well as credible extensions of it, to make predictions that can be tested by the experimentalists.

Theoretical work has a focus on the behaviour of the strong force as described by Quantum Chromodynamics, using both perturbation theory and nonperturbative methods of lattice QCD; the physics of the Higgs boson and the top quark, and the phenomenology of exotic new physics beyond the Standard Model.

The experimental group is a key member of both the ATLAS and LHCb experiments as well as leading work on the computing grid used for data analysis and detector developments for future collider and neutrino experiments.

More information

Research groups

Astronomy and astrophysics

We cover a wide range of topics, including solar and plasma physics, cosmology and radio astronomy. Much of our research in solar physics concentrates on the theory, diagnostics and observation of solar flares, complementing our work in more general plasma theory and atmospheric plasmas.

Our research in radio astronomy and cosmology ranges from low frequency astronomy in space to probing the distribution of dark matter with galaxy surveys.

Extreme Light

What could you do if you had a camera so fast that is can freeze light in motion? Or a quatum sensing device that can measure the path taken by a single photon with a precision of a single atom? We are developing the techonlogies that will enable new forms of imaging with applications ranging from seeing behind and through walls to quantum microscopy.

Imaging concepts

We conduct research into new imaging techniques at optical and radio-frequency wavelengths and work closely with collaborators in industry, biology and medicine to apply these techniques in real-world applications. Our main research fields are computational imaging, spectral imaging and biomedical imaging, particularly in the retina.

Institute for Gravitational Research

Our work includes a broad spectrum of research in and around the field of gravitational wave astronomy and cosmology. This includes:

  • the analysis and astrophysical interpretation of gravitational wave signals from the ground-based network of interferometric gravitational wave detectors including the LIGO observatories.
  • studies of precision novel interferometric sensing techniques to allow detectors to operate at and beyond the Standard Quantum Limit and the development of systems of ultra -low optical and mechanical loss for the suspensions of mirror test masses.

The group is also involved in the space-based LISA mission.

Materials and condensed matter physics

We study fundamental phenomena and find solutions for critical issues such as energy, healthcare and information technology. Our research is underpinned by our capabilities in advanced characterisation, theoretical modelling, computational simulation, and a long-standing reputation for the development of transmission electron microscopy techniques. The group facilities include: advanced materials preparation and characterisation, ferromagnetic resonance, scanning probe microscopy, and state of the art high resolution electron microscopy.

Nuclear & Hadron Physics

The group undertakes fundamental research into the structure of matter and understanding the processes of Quantum Chromodynamics (the strong nuclear interaction). We study the structure of nucleons (protons and neutrons) and also the spectrum of strongly interacting particles (hadrons). The group is involved at the highest level of international research in hadronic and nuclear physics, and in development of the latest detector technologies and analysis techniques for use in experiments. Our experimental programme is based in the US and Germany.

We also have a programme of applying nuclear physics techniques to applications in radioactive waste disposal, healthcare diagnostics and environmental monitoring.

Astronomy &PhysicsEducation (APE)

We are concerned with Scholarship of Learning and Teaching and Physics / Astronomy Education Research. We currently work on:

  • Student learning experience and engagement
  • Data analysis, intervention evaluation and validation
  • Sense of belonging and identity
  • Teaching and learning practical skills in the post-covid area
  • Enhancing the curriculum - Equality, diversity and inclusion; decolonisation; decarbonisation
  • Meaningful and inclusive assessment

APE welcomes anyone with a desire to create the best possible learning experience for our students

Study options

full-time
(years)
part-time
(years)
Phd 3-4 6-8
EngD 4-5 8*
MSc (Res) 1-2 2-3
MPhil 2-3 3-4

* Part-time study is only available at EngD level in Optics and Photonics

Entry requirements

2.1 Honours degree or equivalent

Required documentation

Applicants should submit:

  • Transcripts/degree certificate
  • Two references
  • CV
  • Name of potential Supervisor

English language requirements

For applicants whose first language is not English, the University sets a minimum English Language proficiency level.

International English Language Testing System (IELTS) Academic module (not General Training)

  • 6.5 with no subtests under 6.0
  • Tests must have been taken within 2 years 5 months of start date. Applicants must meet the overall and subtest requirements using a single test
  • IELTS One Skill Retake accepted.

Common equivalent English language qualifications accepted for entry to this programme:

TOEFL (ibt, my best or athome)

  • 79; with Reading 13; Listening 12; Speaking 18;Writing 21
  • Tests must have been taken within 2 years 5 months of start date. Applicants must meet the overall and subtest requirements , this includes TOEFL mybest.

Pearsons PTE Academic

  • 59 with minimum 59 in all subtests
  • Tests must have been taken within 2 years 5 months of start date. Applicants must meet the overall and subtest requirements using a single test.

Cambridge Proficiency in English (CPE) and Cambridge Advanced English (CAE)

  • 176 overall, no subtest less than 169
  • Tests must have been taken within 2 years 5 months of start date. Applicants must meet the overall and subtest requirements using a single test.

Oxford English Test

  • Oxford ELLT 7
  • R&L: OIDI level no less than 6 with Reading: 21-24 Listening: 15-17
  • W&S: OIDI level no less than 6

Trinity College Tests

Integrated Skills in English II & III & IV: ISEII Distinction with Distinction in all sub-tests.

University of Glasgow Pre-sessional courses

Tests are accepted for 2 years following date of successful completion.

Alternatives to English Language qualification

  • Degree from majority-English speaking country (as defined by the UKVI including Canada if taught in English)
    • students must have studied for a minimum of 2 years at Undergraduate level, or 9 months at Master's level, and must have complete their degree in that majority-English speaking countryandwithin the last 6 years
  • Undergraduate 2+2 degree from majority-English speaking country (as defined by the UKVI including Canada if taught in English)
    • students must have completed their final two years study in that majority-English speaking countryandwithin the last 6 years

For international students, the Home Office has confirmed that the University can choose to use these tests to make its own assessment of English language ability for visa applications to degree level programmes. The University is also able to accept UKVI approved Secure English Language Tests (SELT) but we do not require a specific UKVI SELT for degree level programmes. We therefore still accept any of the English tests listed for admission to this programme.

Pre-sessional courses

The University of Glasgow accepts evidence of the required language level from the English for Academic Study Unit Pre-sessional courses. We also consider other BALEAP accredited pre-sessional courses:

Fees and funding

Fees

2024/25

  • UK: £4,786
  • International & EU: £30,240

Prices are based on the annual fee for full-time study. Fees for part-time study are half the full-time fee.

Irish nationals who are living in the Common Travel Area of the UK, EU nationals with settled or pre-settled status, and Internationals with Indefinite Leave to remain status can also qualify for home fee status.

Alumni discount

We offer a 20% discount to our alumni on all Postgraduate Research and full Postgraduate Taught Masters programmes. This includes University of Glasgow graduates and those who have completed Junior Year Abroad, Exchange programme or International Summer School with us. The discount is applied at registration for students who are not in receipt of another discount or scholarship funded by the University. No additional application is required.

Possible additional fees

  • Re-submission by a research student £540
  • Submission for a higher degree by published work £1,355
  • Submission of thesis after deadline lapsed £350
  • Submission by staff in receipt of staff scholarship £790

Depending on the nature of the research project, some students will be expected to pay a bench fee (also known as research support costs) to cover additional costs. The exact amount will be provided in the offer letter.

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Scholarships

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Support

We are a member of the Scottish Universities Physical Alliance (SUPA), a research alliance in physics between six Scottish Universities (Glasgow, Edinburgh, Heriot-Watt, St. Andrews, Strathclyde, West of Scotland). The SUPA graduate school gives Glasgow students access to expertise from all the SUPA institutes through the various courses.

The school has a vibrant research colloquia programme delivered by recognised experts.

You will be part of a Graduate School which provides the highest level of support to its students. The overall aim of our Graduate School is to provide a world-leading environment for students which is intellectually stimulating, encourages them to contribute to culture, society and the economy and enables them to become leaders in a global environment.

We have a diverse community of over 750 students from more than 50 countries who work in innovative and transformative disciplinary and interdisciplinary fields. An important part of our work is to bring our students together and to ensure they consider themselves an important part of the University’s academic community.

Being part of our Graduate School community will be of huge advantage to you in your studies and beyond and we offer students a number of benefits in addition to exceptional teaching and supervision, including:

  • A wide-ranging and responsive research student training programme which enables you to enhance your skills and successfully complete your studies.
  • Mobility scholarships of up to £4000 to enable you to undertake work in collaboration with an international partner.
  • A diverse programme of activities which will ensure you feel part of the wider-research community (including our biannual science slam event).
  • A residential trip for all new research students.
  • The opportunity to engage with industry-partners through training, placements and events.
  • Professionally accredited programmes.
  • Unique Masters programmes run in collaboration with other organisations.
  • State-of-the-art facilities including theJames Watt Nanofabrication Centreand theKelvin Nanocharacterisation Centre.
  • Highly-rated support for international students.

Email:scieng-gradschool@glasgow.ac.uk

Collaborations

Our research groups work with a range of international collaborators and students have the opportunity to visit and work at a range of international institutes and laboratories including:

  • CERN (European Laboratory for Particle Physics, Switzerland)
  • Jefferson Laboratory (USA)
  • Ligo lab (USA)
  • ICRR (Japan).

Resources

Our in-house research facilities include:

  • The Glasgow Laboratory for Advanced Detector Development (GLADD) developing the next generation of advanced sensor systems for particle physics experiments, medical applications and security systems.
  • The SRDG Materials Characterisation Laboratory, developing materials for gravitational wave detectors.
  • TheKelvin Nanocharacterisation Centre, researching the atomic, electric and magnetic structure of materials using one of the world's highest performance electron microscopes.
  • ScotGrid, providing leading edge e-science facilities.
  • TheOpticsgroup provides world-class facilities in structured light and quantum imaging.

Our research teams are also partners in many major national and international research projects including:

  • The ATLAS experiment at the LHC at CERN, studying the fundamental structure of matter at unprecedented energies.
  • LHCb at the LHC in CERN, studying the origin of matter-antimatter asymmetry.
  • The GEO660, LIGO and Virgo Scientific Collaborations, seeking to detect gravitational waves and use these as an additional probe of major astrophysical phenomena.
  • Jefferson Lab, the top nuclear physics research facility in the United States.
  • The SuperSTEM facility (the EPSRC National Facility for Aberration-Corrected Scanning Transmission Electron Microscopy) running one of the highest resolution electron microscopes in the world, and accessible to scientists from all round the UK and the rest of the world.
  • The award winning NASA RHESSI X-ray mission, studying solar flares and several other forthcoming international space missions such as ESA's Solar Orbiter.
  • The F-CHROMA project, focusing on space-based and ground-based multi-mode, multi-wavelength study of solar flares.

Our staff and students have the opportunity to use these facilities, and PhD students are in some cases seconded to external facilities for a significant part of their research.

Graduates leave with numeracy, problem-solving skills, a capacity for logical thought and the capability to apply abstract concepts to the real world, as well as experience of working in teams. Career opportunities for physicists can be found in research in universities or in many areas of industry: high tech manufacturing, semiconductor, materials, finance, consultancy and teaching.

How to apply

Identify potential supervisors

All Postgraduate Research Students are allocated a supervisor who will act as the main source of academic support and research mentoring. You may want to identify a potential supervisor and contact them to discuss your research proposal before you apply. Please note, even if you have spoken to an academic staff member about your proposal you still need to submit an online application form.

You can find relevant academic staff members with ourstaff research interests search.

Gather your documents

Before applying please make sure you gather the following supporting documentation:

  1. Final or current degree transcripts including grades (and an official translation, if needed) – scanned copy in colour of the original document.
  2. Degree certificates (and an official translation, if needed): scanned copy in colour of the original document.
  3. Two references on headed paper and signed by the referee. One must be academic, the other can be academic or professional. References may be uploadedas part of the application form or you may enter your referees contact details on the application form. We will then email your referee and notify you when we receive the reference. We can also accept confidential references direct torio-researchadmissions@glasgow.ac.uk, from the referee’s university or business email account.
  4. Research proposal, CV, samples of written work as per requirements for each subject area.
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International Students

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