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Monash University Handbook 2011Postgraduate areas of research - Faculty of SciencePhysicsCoordinators: Professor David Jesson (Research programs) and Dr David Paganin (Postgraduate Coordinator) The School of Physics offers world-class research opportunities for postgraduate candidates in experimental, theoretical and computational physics. Experimental research includes: condensed matter physics; coherent x-ray optics and synchrotron science; electron, atom and molecular optics; nanostructures (quantum dots/wells) based on III-V materials; electron, neutron and x-ray diffraction; thin films and surface physics; imaging sciences; PET, EPR and Mössbauer spectroscopy and advanced instrumentation and detector development. Theoretical areas include: optics, nanodynamics, particle cosmology, high temperature superconductivity, phase retrieval techniques for linear and non-linear classical and quantal systems, statistical dynamical diffraction theory, quantum gases (BECs), imaging light, and ab initio calculations using density functional theory. The School is host to a number of prominent research centres, including the Monash Centre for Synchrotron Science, the ARC Centre of Excellence for Coherent X-Ray Science and the CRC in Biomedical Imaging Development. It also plays a prominent role in the development of the Imaging and Therapy beamline at the Australian Synchrotron, which is located adjacent to the Clayton Campus of Monash University. Research by Physics staff is conducted at numerous international synchrotron facilities (for example, SPring-8, Photon Factory, ESRF, CLS, DESY) and neutron facilities (ILL, Chalk River). Physics staff are also significant users of national facilities at ANSTO (HiFAR/OPAL). Significant instrumentation located in the School at the Clayton Campus includes a unique low energy electron microscope (LEEM) with MBE facility for growing and imaging GaAs quantum dots. Other major facilities include CT scanners, x-ray diffractometers, Mossbauer spectrometers, a FT-EPR spectrometer, thin film deposition facilities, scanning probe microscopes (STM/AFM), SEM/TEM and access to a FEG-TEM and 3D Atom Probe Field Ion Microscope. A new Electron Microscopy and Microanalysis Facility (EMMF), currently under construction adjacent to the School of Physics, will house a suite of state-of-the-art electron microscopes. The school is well supported by its own highly skilled technical staff in large and well-equipped mechanical and electronics workshops, which encompasses a commercial liquid Helium production facility, materials analysis, sample preparation and scientific imaging. All higher degrees in Physics at Monash are conducted entirely by research, except for the Master of Science Preliminary, which comprises 50 per cent research and 50 per cent coursework. The latter involves units similar to those offered in the Physics BSc(Hons) program. Candidates entering with a BSc(Hons) are required to enrol initially in the Master of Science (MSc) program, from which they can apply to transfer to a Doctor of Philosophy (PhD) after one year. Applicants with a research-only MSc degree can enrol directly into the PhD program; however, they must serve a one year probationary period. Candidates work under the guidance of two assigned supervisors on an individual research project and are expected to attend school colloquia and contribute to research group seminars. Some research projects are multidisciplinary and may suit academically strong candidates from biomedicine, engineering, computing or mathematics. For more details visit http://www.physics.monash.edu.au/research. Research projects are offered in the following areas. Astronomy and astrophysics
Atom optics
Condensed matter physics
Electron diffraction and low-energy electron microscopy
Elementary particle physics
Fundamental x-ray physics
Image processing
Mössbauer spectroscopy
Physics education research
Synchrotron science
Theoretical and computational physics
Theoretical optics
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