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Physics
Location
Location
- Department of Physics
- Ernest Rutherford Physics Building
- 3600 University Street
- Montreal, QC H3A 2T8
- Canada
- Telephone: 514-398-6485 (Graduate Information)
- Fax: 514-398-8434
- Email: graduate.physics [at] mcgill.ca
- Website:
About Physics
About Physics
The Department of Physics currently has a faculty of approximately 40 members, including several holders of Canada Research Chairs and many other prestigious named Chairs. Additionally, we host an impressive number of postdoctoral fellows and research associates and run one of the largest and most vibrant graduate programs in North America. The graduate student enrolment is currently approximately 150.
Faculty members in the Department of Physics are recognized internationally for their excellence. Our members have received national and international prizes and fellowships including Les Prix Du Quebec, Steacie Prize, Sloan Fellowships, and others too many to list here. They are also in constant demand as reviewers and referees. Students who earn advanced degrees from the Department of Physics will not only get an excellent education, they will also receive valuable guidance and network contacts to help with subsequent career steps.
The Department offers full M.Sc. and Ph.D. degree programs in a wide range of disciplines including astrophysics, atmospheric physics, bio-physics, condensed-matter physics, high-energy physics, laser spectroscopy, material physics, non-linear dynamics, nuclear physics, statistical physics, and medical-radiation physics.
Although most of the teaching and research facilities are located in the Ernest Rutherford Physics Building, the Department has space and research facilities in the Wong Materials Science Centre, adjacent to the Rutherford Building on 91ÉçÇø's lower campus. Our groups also conduct research at laboratories around the world including Argonne, CERN, FermiLab, SLAC, and TRIUMF.
Departmental researchers enjoy technical support in the areas of engineering, electronics, and precision machining. The Department maintains an excellent conventional machine shop as well as the 91ÉçÇø Nanotools-Microfab facility. Most of the scientific computing is done with an extensive in-house network of powerful workstations and several Beowulf clusters.
Remote access to supercomputing sites in Canada and the United States is also possible including the CLUMEQ super-computing facility which is a part of the nationwide network of High Performance Computing Installations in Quebec.
The Department of Physics currently guarantees financial support of $21,400 per year for every graduate student. This minimum level of support can be supplemented by winning one of 91ÉçÇø's large number of in-house scholarships, worth up to $25,000 per year. For details, see .
Graduate students in the Department of Physics come from many different countries and cultures from all over the world, providing a stimulating cosmopolitan atmosphere in the Department. This, coupled with the unique opportunities afforded by the city of Montreal, guarantees a quality of life that is second to none among Canadian universities. For graduate admission and application information, please visit .
Fields of Research
High-Energy Physics
Theoretical: The 91ÉçÇø high energy theorists have interests in a wide range of areas within quantum field theory, string theory, quantum gravity, and cosmology. Research areas of the high-energy theory faculty include applications of quantum field theory techniques to relativistic heavy ion collisions, baryogenesis, superstring cosmology, theory of cosmological perturbations, black hole physics, supergravity, three dimensional gravity, and various topics related to the physics and mathematics of superstring theory. The high-energy theorists have close connections to the nuclear theory group, the astrophysics group, the high-energy experimentalists, and to members of the Mathematics Department.
Experimental: The experimental high-energy physics group is engaged in a number of experiments at the research frontiers of the field, both in subatomic physics and in high-energy astrophysics. These include:
- Electron-positron collisions: a group works on the BaBar experiment at SLAC and R&D for the proposed SuperB experiment at LNF in Italy, with specific interest in CKM matrix elements and physics beyond the Standard Model through studies of rare decays, and on R&D for a future International Linear Collider, with interest in calorimeter development.
- Electron-proton collisions: a group is studying high-energy lepton-quark interactions using data from the ZEUS experiment at DESY in Hamburg, with interest in deep inelastic scattering and flavour production.
- Hadron-hadron collisions: CDF and Dzero groups employ Fermilab's energy frontier Tevatron proton-antiproton accelerator to study top and bottom quarks and search for the Higgs boson. A group is also involved in major contributions to the next energy frontier at CERN's LHC, with work on the High Level Trigger for the ATLAS experiment.
- High-energy particle astrophysics: ground-based gamma-ray astronomy using the newly commissioned VERITAS telescope array and development of the next-generation detector.
Students at the M.Sc. and Ph.D. levels are offered a strong program of research in a challenging and rapidly advancing field. Short term master's projects are based mainly on instrumentation or data analysis conducted on campus, while Ph.D. research may involve an extended stay at one of the world's major research laboratories.
Nuclear Physics
Theoretical: Current research programs include transport equations for heavy ion collisions at intermediate energy; nuclear equation of state from heavy ion collisions; fragmentation at intermediate energy; electromagnetic probes in relativistic heavy ion collisions; effective Lagrangians for hadronic systems at finite temperature; and Quark-Gluon Plasma, QCD.
Experimental: Current research programs in experimental nuclear physics at 91ÉçÇø are focused on two main axes:
- The study of heavy-ion reactions at relativistic energies to determine the properties of nuclear matter at high temperatures and density. This program is being performed at the Brookhaven National Laboratory, and at the Large Hadron Collider facility at CERN.
- The study of ground state properties of unstable nuclei using laser spectroscopy techniques and ion traps. This work is being carried out using the Canadian Penning trap facility at the Argonne National Laboratory and at the accelerator ISOLDE (CERN), and the ISAC facility at TRIUMF.
Furthermore, the Nuclear Physics Group has an active in-house research program that applies the ion trap and laser techniques to the detection of trace quantities of material and contaminants, and to ion spectroscopy.
Condensed Matter Physics
Theoretical: Current research programs involve the nonequilibrium, ab-initio modelling of molecular and nanoelectronic systems and devices; the study of quantum effects in interacting mesoscopic electron systems; nonequilibrium phenomena in extended systems; and applications of statistical mechanics to problems in biophysics.
Experimental: Current research programs involve the study of the time evolution of non-equilibrium systems via x-ray diffraction, fundamental quantum properties of strongly correlated systems at temperatures very near absolute zero, macromolecular interactions in living cells using single-photon and two-photon imaging, molecular electronics and nanoelectronic systems by scanning probe microscopy, dynamics and mechanical properties of soft matter systems and spatial organization and dynamics in living cells, mechanical behaviour of very small systems by high-resolution force microscopy, electronic properties that emerge at the limits of miniaturization and quantum computing, and nuclear methods to study interactions in magnetic materials that lead to exotic magnetic ordering behaviour. This includes studies of novel materials such as carbon nanotubes, graphene, unconventional superconductors, guantum dots, heterostructures, amorphous systems, and spin glasses.
Astrophysics
Research in the astrophysics group covers a wide range of topics including cosmology, galaxy formation, high-energy astrophysics, and extrasolar planets. This involves observations at all wavelengths, from gamma rays and X-rays to sub-mm, infrared and radio, using international observatories in space and on the ground. Experimental groups at 91ÉçÇø are involved in development and operation of ground-based high-energy gamma-ray observatories, and cosmic microwave background experiments. Theoretical work includes studies of how astrophysics and observational cosmology can experimentally determine the most important properties of dark matter and dark energy, studies of the diverse physics of neutron stars, and extrasolar planet formation.
Nonlinear Variability in Geophysics
This group studies nonlinear dynamical processes in the atmosphere and other geophysical systems, especially those associated with turbulent, chaotic, and extremely variable behaviour. Emphasis is placed on multifractal analysis and modelling as well as the development of new theories and techniques covering wide ranges of scale in time and space. Data from a variety of in situ and remotely sensed sources are used. This includes satellite data of the Earth's atmosphere and surface as well as high-quality precipitation data from the 91ÉçÇø Radar Weather Observatory.
Master of Science (M.Sc.); Physics (Thesis) (45 credits) |
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91ÉçÇø graduates have gone on to successful careers in academia and industry as well as in government. Our former students teach in colleges and universities world-wide and others have research positions in governmental and industrial laboratories. Still others work in the financial sector or as entrepreneurs making good use of the analytic and quantitative problem-solving skills acquired during their education as physicists. Consult the Department for more information about this program. |
Doctor of Philosophy (Ph.D.); Physics |
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91ÉçÇø graduates have gone on to successful careers in academia and industry as well as in government. Our former students teach in colleges and universities world-wide and others have research positions in governmental and industrial laboratories. Still others work in the financial sector or as entrepreneurs making good use of the analytic and quantitative problem-solving skills acquired during their education as physicists. Consult the Department for more information about this program. |
Physics Admission Requirements and Application Procedures
Physics Admission Requirements and Application Procedures
Revision, October 2012. Start of revision.
Admission Requirements
Admission Requirements
M.Sc.
Normal requirement is a B.Sc. in Physics or equivalent, with high standing.
Ph.D.
Normal requirement is an M.Sc. in Physics or equivalent. Candidates in good Standing may have the option of transferring into this program from the M.Sc. program after one year.
Application Procedures
Application Procedures
91ÉçÇø’s online application form for graduate program candidates is available at www.mcgill.ca/gradapplicants/apply.
See Application Procedures (for All Admissions Starting Summer 2013) for detailed application procedures.
Financial Assistance
Financial assistance will be offered to students in the form of a bursary, and teaching and research assistantships. For new students, financial support will be offered at the time of acceptance. Forms are given and filled out on registration day.
Physics Faculty
Physics Faculty
Chair |
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C. Gale |
Director of Graduate Studies |
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S. Jeon |
Emeritus Professors |
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S. Das Gupta; B.Sc., M.Sc.(Calc.), Ph.D.(McM.) (Macdonald Emeritus Professor of Physics) |
N.B. DeTakacsy; B.Sc., M.Sc.(Montr.), Ph.D.(McG.) |
C.S. Lam; B.Sc.(McG.), Ph.D.(MIT) |
M.P. Langleben; B.Sc., M.Sc., Ph.D.(McG.), F.R.S.C. |
S.K. Mark; B.Sc., M.Sc., Ph.D.(McG.) (Macdonald Emeritus Professor of Physics) |
D.G. Stairs; B.Sc., M.Sc.(Qu.), Ph.D.(Harv.) (Macdonald Emeritus Professor of Physics) |
J.O. Strom-Olsen; B.A., M.S., Ph.D.(Camb.) |
M.J. Zuckermann; M.A., D.Phil.(Oxf.), F.R.S.C. |
Post-Retirement Professors |
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J. Barrette; M.Sc., Ph.D.(Montr.) |
J.E. Crawford; B.A., M.A.(Tor.), Ph.D.(McG.) |
R. Harris; B.A.(Oxf.), Ph.D.(Sus.) |
J.K.P. Lee; B.Eng., M.Sc., Ph.D.(McG.) |
R.B. Moore; B.Eng., M.Sc., Ph.D.(McG.) |
P.M. Patel; B.Sc., M.Sc.(Manc.), Ph.D.(Harv.) |
Professors |
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J. Brandenberger; Dip.(ETH), A.M., Ph.D.(Harv.) (Canada Research Chair) |
J. Cline; B.S.(Harvey Mudd), M.Sc., Ph.D.(Cal. Tech.) |
F. Corriveau; B.Sc.(Laval), M.Sc.(Br. Col.), Ph.D.(ETH) |
C. Gale; B.Sc.(Ott.), M.Sc., Ph.D.(McG.) (James 91ÉçÇø Professor) |
M. Grant; B.Sc.(PEI), M.Sc., Ph.D.(Tor.), F.R.S.C. (James 91ÉçÇø Professor) |
P. Grutter; Dip., Ph.D.(Basel), F.R.S.C. (James 91ÉçÇø Professor) |
H. Guo; B.Sc.(Sichuan), M.Sc., Ph.D.(Pitt.), F.R.S.C. (James 91ÉçÇø Professor) |
D. Hanna; B.Sc.(McG.), A.M., Ph.D.(Harv.) (Macdonald Professor of Physics) |
V. Kaspi; B.Sc.(McG.), M.A., Ph.D.(Princ.), F.R.S.C. (Canada Research Chair) (Lorne Trottier Chair in Astrophysics and Cosmology) |
S. Lovejoy; B.Sc.(Camb.), Ph.D.(McG.) |
N. Provatas; Ph.D.(McG.) |
K. Ragan; B.Sc.(Alta.), Ph.D.(Geneva) (Macdonald Professor of Physics) |
D.H. Ryan; B.A., Ph.D.(Dub.) |
M. Sutton; B.Sc., M.Sc., Ph.D.(Tor.) (Rutherford Chair in Physics) |
Associate Professors |
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A. Clerk; B.Sc.(Tor.), Ph.D.(C’nell) (Canada Research Chair) |
A. Cumming; B.A.(Camb.), Ph.D.(Calif., Berk.) |
K. Dasgupta; M.Sc., Ph.D.(TIFR) |
M. Dobbs; B.Sc.(McG.), Ph.D.(Vic., BC) (Canada Research Chair) |
G. Gervais; B.Sc.(Sher.), M.Sc.(McM.), Ph.D.(N’western) |
M. Hilke; B.Sc., M.Sc., Ph.D.(Geneva) |
G. Holder; B.Sc., M.Sc.(Qu.), Ph.D.(Chic.) (Canada Research Chair) |
S. Jeon; B.Sc.(Seoul National), M.Sc., Ph.D.(Wash.) |
G. Moore; B.S.(Harvey Mudd), Ph.D.(Princ.) |
S. Robertson; B.Sc.(Calg.), M.Sc., Ph.D.(Vic., BC) |
R. Rutledge; B.Sc.(USC), Ph.D.(MIT) |
B. Vachon; B.Sc.(McG.), Ph.D.(Vic., BC) (Canada Research Chair) |
A. Warburton; B.Sc.(Vic., BC), M.Sc., Ph.D.(Tor.) |
P. Wiseman; B.Sc.(St. FX), Ph.D.(W. Ont.) (joint appt. with Chemistry) |
Assistant Professors |
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B. Coish; Ph.D.(Basel) |
D. Cooke; Ph.D.(Alta.) |
P. Francois; Ph.D.(Paris VII) |
S. Leslie; Ph.D.(Calif., Berk.) |
A. Maloney; B.S., M.S.(Stan.), Ph.D.(Harv.) (William Dawson Scholar) |
T. Pereg-Barnea; Ph.D.(Br. Col.) |
W. Reisner; B.A.(Reed), Ph.D.(Princ.) |
J. Sankey; Ph.D.(C’nell) |
B. Siwick; B.Sc., M.Sc., Ph.D.(Tor.) (Canada Research Chair) (joint appt. with Chemistry) |
J. Walcher; Dip., Ph.D.(ETH) (joint appt. with Mathematics) |
T. Webb; B.Sc.(Tor.), M.Sc.(McM.), Ph.D.(Tor.) |
Lecturers |
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Z. Altounian, F. Buchinger |
Associate Members |
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M. Chacron (Physiology) |
K. Gehring (Biochemistry) |
P. Hayden (Computer Science) |
M. Mackey (Physiology) |
Z. Mi (Electrical and Computer Engineering) |
J. Nadeau (Biomedical Engineering) |
E. Podgorsak (Medical Physics) |
D. Rassier (Kinesiology) |
D. Ronis (Chemistry) |
J. Seuntjens (Medical Physics) |
T. Szkopek (Electrical and Computer Engineering) |
F. Verhaegen (Medical Physics) |
Adjunct Professors |
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G. Austing, J. Cadogan, F. Drolet, M. Dubé, M. Grisaru, L. Piché, A. Sachrajda |
Master of Science (M.Sc.); Physics (Thesis) (45 credits)
For more information, see Master of Science (M.Sc.); Physics (Thesis) (45 credits).
Doctor of Philosophy (Ph.D.); Physics
For more information, see Doctor of Philosophy (Ph.D.); Physics.