Project selection

Please have a look at the project descriptions below and consult potential supervisors to get more information.

selection form: Year 3 Year 4
deadline: Wed 4 Oct 2pm

Once you've decided which projects interest you most, choose your favourite four using the online project selection form by the deadline shown in the table on the overview page. Your selection must include projects from at least three different supervisors. We'll try to accommodate everybody's preferences while keeping the supervision workload balanced between staff. The module co-ordinator's decision on project allocation is final.

The project descriptions linked from the list below specify the topic, supervisor and nature of the project (experimental, computational, theoretical...). All projects are open to all students, but the supervisor can issue guidance as to whether a project is particularly suitable for a specialty or joint degrees. All projects can be chosen by 3rd-year students, but if the project is suitable for 4th-years, there is an additional scope section explaining what is expected of a 4th-year student over and above what a 3rd-year group should aim for. This will typically cover more challenging or difficult aspects of the project, not just a greater amount of data to process.

The novelty section gives you an estimate of how open-ended a project is. A novel research project will be more challenging but also potentially more rewarding, as you may be the first person to discover a novel bit of science. There is a section about project milestones and deliverables against which your progress will be judged. These are project-specific targets which the supervisor specifies to ensure your project remains on track. The general deadlines for assessed components apply independently of these. The references at the bottom are meant to give you some background and starting points for your own literature research.

Project list

The project list is being updated over the summer. More projects will be added to the list over the next few weeks. The list will be complete by mid September.

Currently showing: projects suitable for both Yr3 and Yr4

Change list contents:  [suitable only for Yr3]  [suitable for both Yr3 and Yr4]  [all projects]  [latest uploads]

Click the title of a project to view a full project description.

full jnt. exp instr data softw theor topic supervisor working title
XXXXspaceTony CookA Reflective Pin Hole Telescope
XXXXotherTony CookCardigan Bay Wave Height Measuremnets Using a Telescope
XXXmaterTony CookCosmic Ray Detections with CCD Cameras
XXXXmaterTony CookEfficient Drying of Clothes on Washing Lines
XXXXmaterTony CookFeasibility of Cymatics to Sort Spacecraft Soil Samples
XXXXspaceTony CookLunar Impact Flash Observations
XXXXspaceTony CookLunar Occultations of Binary Stars
XXXXmaterTony CookMechanoluminescence Produced from Rock Particles in a Kitchen Blender
XXXXspaceTony CookNASA LROC Imagery - Change Detection on the Lunar Surface
XXXXspaceTony CookOptical SETI
XXXXmaterTony CookOrb Photography of Dust Particles
XXXmaterTony CookString Telephone Experiments
XXXXspaceTony CookTransient Lunar Phenomena
XXXXspaceTony CookTransient Lunar Phenomenon Detection Techniques
XXXXspaceBalázs PintérBell’s Spaceship Paradox
XXXXspaceBalázs PintérEffects of Solar Weather on the Earth's Magnetosphere
XXXXspaceBalázs PintérRelativistic Doppler Effects
XXXspaceBalázs PintérRevisiting the Twin Paradox of Special Relativity
XXXXspaceBalázs PintérThe Lock and Key Paradox of Special Relativity
XXXXspaceBalázs PintérTracking a Sunspot
XXXXspaceBalázs PintérVisual Appearance of Fast-Moving Objects
XXXXmaterChris FinlaysonComputational Simulation of C60 and Fullerene derivatives
XXXXmaterChris FinlaysonComputational Simulation of Chiral Molecules
XXXXmaterChris FinlaysonComputational Simulations of Organic Semiconductors
XXXXmaterChris FinlaysonOptical Properties of Polymer Opal Thin-films
XXXXmaterChris FinlaysonQuantitative measurements of photobleaching effects in organic semiconductors
XXXmaterChris FinlaysonSmall molecule semiconductors; experiment and theory
XXXmaterChris FinlaysonSpin-coated oxides; preparation and characterisation
XXXXmaterChris FinlaysonStudy of Soft Photonics Materials using an Optical Shear Cell
XXXXmaterDave LangstaffAnalysis of wobbling drop video data
XXXXmaterDave LangstaffOscillating chemical reactions
XXXXmaterEdwin FlikkemaBouncing billiard balls: modelling the dynamics of hard sphere systems
XXXXmaterEdwin FlikkemaGraph based sampling of fully-coordinated geometries of clusters of network-forming materials
XXXXmaterEdwin FlikkemaKnots, links, rings and other things: simulating topological interaction in polymer systems
XXXXmaterEdwin FlikkemaSnakes on a lattice: using Wang-Landau sampling to study a simple polymer model
XXXXmaterEdwin FlikkemaThe Ising magnet: a simple model for phase transitions
XXXXqitJukka KiukasReading information from a noisy quantum bit
XXXXmaterMaire GormanQuantum Chemistry Calculations for BeCl, MgCl and CaCl.
XXXXspaceMaire GormanSearch for MgF and CaF in astronomical settings & possible laser cooling applications
XXXXspaceMaire GormanSearch for the GeO and SnO molecules in space
XXXXmaterMaire GormanWhat's that smell? Molecular spectroscopy of nasty gases emitted from volcanoes
XXXmaterRudi WinterFilm deposition under the microscope
XXXmaterRudi WinterImpact resistance of non-Newtonian fluids
XXXmaterRudi WinterPhotoelasticity: visualising strain in polymer films
XXXXmaterTom KnightFeature Parameterisation for Grazing Incidence X-Ray Scattering
XXXXspaceYoura TaroyanAbsolute and Convective Instabilities

 [only for Yr3]  [for Yr3 or Yr4]  [all]  [latest]  (currently 46 projects available)