Others begin careers in industrial research, sales or marketing, patents law, the financial sector and the media. See recent graduate employment case studies. The Physics and Astronomy Scholarship is for entrant undergraduate students with a degree intention of Physics, Astrophysics or Theoretical Physics or any joint Honours combination. Undergraduate scholarships. Postgraduate taught scholarships. School of Physics and Astronomy website. School of Physics and Astronomy research portal.
Physics and Astronomy Physics is a key subject for understanding the world and universe. Entry routes There are different entry and exit points for undergraduate degree programmes. International Foundation programmes - entry International Foundation programmes prepare international students for undergraduate study in the UK and at the University of St Andrews in particular.
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Science September Foundation. Physics and Astronomy at St Andrews. Visit St Andrews. Undergraduates If you are interested in studying at St Andrews, join us at a visiting day or talk and tour to explore the town, find out about our courses and meet current students. Physics and Astronomy research areas. The main research programmes are in: biophotonics laser physics optoelectronics quantum optics structured media magnetism superconductivity millimetre-wave physics astrophysics.
Research students may apply for a PhD place in the following research areas:.
Open all Condensed matter research. The following members of staff are currently undertaking research in condensed matter physics: Dr Bernd Braunecker : theoretical condensed matter physics; interacting electrons and magnetism in low-dimensional conductors; self-emergent phases; dynamical response; correlation effects in NMR; generation and detection of entaglement in nanostructures; topological states. Dr Donatella Cassettari : Bose-Einstein condensation in dilute atomic gases; strongly correlated many-body quantum mechanics; implementation of quantum information processing with neutral atoms.
Dr Chris Hooley : theoretical condensed matter physics; the quantum many-body problem; vortex-mediated melting in layered systems with competing orders; interpretation of partition function zeros at complex temperature; majorana-paired mean-field states in magnetic systems; spin-orbit interaction in the jellium model; formation of edge states in topological insulators.
Dr Jonathan Keeling : quantum states and dynamics of non-equilibrium systems; problems in microcavity polaritons; cold atoms in optical cavities; superconducting qubits in microwave cavities. Professor Steve Lee : microscopic probes applied to superconducting and magnetic systems; magnetic structures of single crystals, multilayers, magnetic-superconductor interface, magnetic recording media, artificial multiferroics, artificial spin-ice systems and other lithographically generated nanostructures.
Dr Brendon Lovett : theoretical studies of quantum coherence in condensed matter systems; optical control of electron states; electronic coherence with environmental interactions; quantum memory and biology. Professor Andrew Mackenzie : the physics of correlated electrons; magnetism and superconductivity; many-body quantum states; low-temperature properties of extremely pure oxide metals; magnets and superconductors. Professor Peter Wahl : tunnelling spectroscopy of strongly correlated electron materials; Kondo effects of single magnetic atoms at metal surfaces; competition between magnetism and electron correlations in coupled impurities; bulk correlated electron systems.
Phototonics, optoelectronics and biophysics. Professor Kishan Dholakia : optical micromanipulation techniques; investigation of novel light fields; characterisation of partical dynamics in optical light fields; optical traps within microfluidic environments; novel laser techniques for cell biology and medicine. Professor Malte Gather : biophotonics; biological lasers; organic semiconductors; plasmonics.
Dr Friedrich Koenig : quantum optics; Hawking radiation; event horizons; analog gravity; few-cycle pulses in fibres; fibre-optical black holes; non-linear fibre optics; solitons. Professor Natalia Korolkova : theoretical quantum optics and quantum information; continuous variable quantum information; the creation of light-matter interface and quantum memory of light.
Dr Janet Lovett : electron spin resonance for biomolecular structure deterination; protein structure investigations; development of new spin labels and methods of spin labelling. Dr Michael Mazilu : fundamental and applied photonics; optical eigenmodes for beating the diffraction limit; subwavelength focusing; optimised structured illumination; compressive imaging; micromanipulation; crosstalk free coherent control; Raman imaging.
Dr Hamid Ohadi : quantum fluids of light, studying condensed matter physics with photonics using exciton-polaritons. Dr Carlos Penedo-Esteiro : novel biophysical techniques; single-molecule detection techniques; biomolecular interactions including proteins; DNA and RNA at the level of individual molecules; real-time monitoring of the behaviour of individual biological molecules and complexes, in vitro and in live cells.
Professor Ifor Samuel : organic semiconductor materials and devices; development of advanced materials; emerging applications of organic semiconductors such as explorsive sensing and skin cancer treatment; applications of fluorescence in medicine and biology. Dr Sebastian Schulz : nanophotonics; epsilon-near-zero metamaterials; flexible metasurfaces; superprism structures.
Undergraduate - 2020 entry
Research areas include: theoretical cosmology the formation and evolution of galaxies star formation extrasolar planet detection physics and chemistry of very cool atmospheres the formation of planetary systems and their discs radiative transfer in the interstellar medium magnetic fields around solar-type stars.
Research teams approach these topics from theoretical, numerical and observational perspectives. The following members of staff are currently undertaking research in astronomy: Professor Ian Bonnell : dynamics of star formation and of young stellar systems; star—star collisions; formation of high mass stars and multiple stellar systems. Professor Andrew Cameron : discovery and characterisation of extrasolar planets via transit surveys, radial-velocity and photometric follow-up; characterisation of stellar magnetic activity and its influence on planet characterisation; stellar rotation surveys; Doppler tomography of starspots and transiting planets; tidal interaction between close-orbiting planets and their host stars.
Dr Claudia Cyganowski : observational studies of massive star formation; proto-stellar feedback; star formation in clustered environments; astrochemistry; wavelength interferometry. Dr Martin Dominik : detection and characterisation of extrasolar planets by means of gravitational microlensing; determination of abundance of galactic and extra-galactic planets; modelling of photometric and astrometric microlensing events and development of required numerical algorithms; intelligent real-time scheduling on robotic telescope networks; Lucky imaging.
Dr Christiane Helling : atmospheres of extrasolar planets and brown dwarfs; cloud formation and their effects on the atmosphere; lightning and charge separation in dust environments. Professor Keith Horne : extrasolar planets; robotic telescopes; accretion disks; cataclysmic variables; active galactic nuclei; X-ray binaries; black holes; magnetic activity; magnetic accretion; Doppler tomography; eclipse mapping; echo mapping; gravitational lensing; cosmology; conformal gravity; maximum entropy methods; data analysis techniques; statistics; virtual reality.
Professor Moira Jardine : theoretical studies of stellar magnetic fields; early rotational evolution of the solar system; formation of planetary systems. Dr Alexander Scholz : the star—planet connection; formation and early evolution of stars, brown dwarfs and planets; star formation in diverse environments; time-domain studies of young stellar objects; accretion, outflows and magnetic activity; angular momentum regulation in stars; weather in dusty environments.
Dr Rita Tojeiro : galaxy evolution; stellar populations in galaxies; large-scale structure of the Universe and galaxy clustering; observational cosmology; large spectroscopic surveys; science communications. Dr Anne-Marie Weijmans : structure and evolution of galaxies; integral-field spectroscopy and galaxy surveys; properties of stellar and dark matter haloes. Dr Vivienne Wild : evolution of galaxies; observations of recently formed galaxies in high redshift surveys; stellar population archaeology in low redshift surveys; multi-wavelength observations using space and ground-based telescopes; galaxy evolution models.
Dr Peter Woitke : computational modelling of low-energy astrophysical objects, such as protoplanetary discs; atmospheres of brown dwarfs; simulations of dust-driven AGB star winds. Dr Kenneth Wood : simulations of transport of light through three-dimensional astrophysical systems comprising dust and gas; tests theories for the structure, evolution and composition of protostellar clouds and disks that provide the seeds for star and planet formation. Dr Hongsheng Zhao : dark matter; galaxy dynamics and gravitational lensing as probes of dark matter; alternative theories of gravity.
Physics research centres The School of Physics and Astronomy currently has, or is collaboratively involved with, six research centres and groups. Centre for Doctoral Training in Applied Photonics. Cosmology is the study of space and time on a large scale.https://agendapop.cl/wp-content/topspy/kasy-como-intervenir.php
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