Last updated: September 8, 2009 @ 03:07PM
Physics
Master of Science in Physics
Fields of Specialization
Experimental Condensed Matter Physics and Materials Science
Theoretical Physics
Biophysics
Dean
Ian D. Brindle
Faculty of Mathematics and Science
Associate Dean
Rick Cheel
Faculty of Mathematics and Science
Graduate Faculty
Professor Emeritus
Ramesh C. Shukla (Physics)
Professors
Shyamal K. Bose, Chair (Physics), Douglas H. Bruce (Biological Sciences), Bozidar Mitrovic (Physics), Fereidoon S. Razavi (Physics), Maureen Reedyk (Physics), Stuart M. Rothstein (Chemistry), Kirill Samokhin (Physics), Art van der Est (Chemistry), Jan Vrbik (Mathematics)
Associate Professors
David A. Crandles (Physics), Henryk Fuks (Mathematics), Edward Sternin (Physics)
Assistant Professor
Thad A. Harroun (Physics)
Adjunct Professors
James A. Blackburn (Wilfrid Laurier University), John Katsaras (NRC, Chalk River), Reinhard Kremer (Max-Planck Institute, Germany)
Senior Laboratory Instructor
Frank A. Benko
Laboratory Demonstrator
Fulvio (Phil) Boseglav
Graduate Program Director
Kirill Samokhin
kirill.samokhin@brocku.ca
Administrative Assistant
Elizabeth Horvath
905-688-5550, extension 3412
Mackenzie Chown B210
http://www.physics.brocku.ca/gprogram.html
Program Description
The Department of Physics offers a thesis-based MSc program which currently focuses on condensed matter physics, materials science and biophysics. The MSc thesis can involve a theoretical or experimental project. Potential fields of research which may be pursued are described below. Students will gain extensive experience in research, critical thinking and essential communication and technical skills, which will prepare them for PhD studies and/or employment in industry and other institutions and organizations. Hands-on use of our sophisticated equipment provides excellent job training and gives our graduates a significant advantage in the job market over those students who have only an undergraduate degree.
Admission Requirements
Successful completion of an Honours Bachelor's degree, or equivalent, in Physics with a minimum B overall average. Applicants holding a degree without sufficient concentration in the area of the intended Master's degree, may be required to complete additional courses beyond those outlined as required for degree completion. The Graduate Record Examination (GRE) is recommended for international students but not required. Agreement from a faculty advisor to supervise the student is also required for admission to the program.
The Graduate Admissions Committee will review all applications and recommend admission for a limited number of suitable candidates.
Part-time candidates may be considered.
Degree Requirements
The program must include PHYS 5F90 and four PHYS half-credits. Only one half-credit may be at the 4(alpha)00 level. Additional credits may be required where a candidate is deficient in a particular area of study.
For full-time students, the program is normally a six term or two year program.
Fields of Specialization
The department's main research emphasis is on condensed matter physics. The following research fields are currently represented, and are described in detail on our website at: http://www.physics.brocku.ca/Programs/M.Sc/
Theoretical physics
Lattice dynamics: lattice vibrations in simple metals, thermodynamics of anharmonic crystals, formalism of interacting many-body systems, Monte Carlo and molecular dynamics simulations. Superconductivity: unconventional pairing, novel materials (high-Tc, magnetic, etc.), localization and superconductivity, superconducting glassy state. Transport in metals: transport properties of heavy fermion systems. Non-crystalline materials: calculation of electronic structure and transport properties of amorphous and liquid metals, quasicrystals, alloys and semiconductors, vibrational and magnetic properties of amorphous solids. Linear response calculations of electron-phonon interaction and superconductivity in solids. Unconventional superconductivity: magnetic superconductors, high temperature superconductors, strongly correlated electron systems in one and two dimensions. Mesoscopic physics. Quantum Monte Carlo studies of physical properties of isolated atoms and molecules. Monte Carlo and molecular dynamics studies of biological molecules.
Experimental Condensed Matter Physics and Materials Science
Investigation of the optical properties of materials with phase transitions (e.g., ferromagnets, superconductors, heavy fermion, spin- and charge-density wave compounds) via optical spectroscopy from mm wave to uv. Preparation and characterization of ceramic, single crystal and thin film (using pulsed-laser deposition) high Tc superconductors, CMR materials (manganites) and amorphous alloys. Magnetic and transport properties at ambient and high pressure utilizing measurement techniques such as SQUID magnetometry, specific heat and dc-resistivity.
Biophysics
Nuclear Magnetic Resonance spectroscopy and relaxation measurements in soft condensed matter systems. Study of collective motions in model membranes, phase transitions in liquid crystals. Exploration of various morphologies and phase behavior of lipid/water systems using scattering techniques (e.g. Neutrons, x-ray and light). Study of the protein/membrane interactions; structural characteristics of membrane active peptides.
Biophysics of photosynthetic energy conversion using a combination of specialized optical spectroscopic techniques and theoretical models for excitation energy transfer and electron transport. Time resolved Electron Spin Resonance spectroscopy and light-induced spin polarization in photosynthetic membrane proteins and donor acceptor molecular complexes. Investigation of energy and electron transfer and spin dynamics in these systems.
Experimental research facilities are supported by electronics, glassblowing and machine shop services. The University provides extensive computing facilities using Silicon Graphics UNIX servers and high performance Beowulf clusters.
Course Descriptions
Note: Not all courses are offered in every session. Students must consult with the Graduate Program Director regarding course offerings and course selection and must have their course selections approved by the Graduate Program Director each term. Refer to the Timetable for scheduling information: http://www.brocku.ca/registrar/guides/grad/timetable /terms.php
PHYS 5F90
MSc Thesis
A research project involving the preparation and defence of a thesis which will demonstrate a capacity for independent work. The research shall be carried out under the supervision of a faculty member and the thesis defended at an oral examination.
PHYS 5P00
Quantum Chemistry: Theory
(also offered as CHEM 5P00)
Self-consistent-field (SCF) method: configuration interaction; basis functions; electron correlation; physical properties of atoms, diatomic and polyatomic molecules.
PHYS 5P30
Advanced Electromagnetism
Electromagnetic wave propagation in vacuum, dielectrics, conductors and ionized gases; wave guide and transmission line propagation; dipole and quadrupole radiation fields; relativistic transformation of the electromagnetic fields; radiation by moving charges.
PHYS 5P41
Advanced Statistical Physics
Statistical ensembles, mean field and Landau theory, critical phenomena and the renormalization group; quantum fluids; superfluidity; linear response theory; selected topics on disordered systems.
PHYS 5P50
Advanced Quantum Mechanics I
Green's functions in quantum mechanics and angular momenta, relativistic Schrodinger equation, Dirac equation, positron theory and many electron problems.
PHYS 5P51
Advanced Quantum Mechanics II
Symmetry, collision theory, Green's function, S-matrix, field quantization.
PHYS 5P67
Biophysical Techniques
(also offered as BTEC 5P67, CHEM 5P67, BIOL 5P67)
An advanced seminar/lecture course on experimental techniques in biophysics. The focus is on understanding the theory, applications and limitations of a variety of techniques students will encounter during their graduate studies. Techniques will range from advanced spectroscopy (absorption, fluorescence, NMR, X-ray diffraction) to molecular biochemistry spectroscopy.
PHYS 5P70
Advanced Condensed Matter Physics
Energy bands, semiconductors, Fermi surfaces and metals, optical properties, magnetism and/or other topics to be selected.
PHYS 5P72
Many Body Theory
Green's functions at zero and finite temperature; perturbation theory and Feynman diagrams; linear response theory; electron- electron interaction; electron-phonon interaction; electrons in disordered systems; Fermi liquid theory; BCS theory of superconductivity.
Note: a strong background in quantum mechanics will be expected.
PHYS 5P73
Superconductivity
Overview of basic experimental facts. Introduction to the BCS theory, effects of disorder, symmetry of the order parameter and the Ginzburg-Landau theory, magnetic properties of superconductors, macroscopic phase coherence phenomena, quasiparticle excitations in superconductors: thermal and optical properties; unconventional superconducting materials: HTSC, heavy fermions, organic superconductors.
PHYS 5P74
Magnetism and Magnetic Materials
Fundamental and device applications of magnetism. Magnetic materials, magnetic measurements. Domains, domain walls, domain processes, magnetization curves and hysteresis. Soft and hard magnetic materials and applications. Magnetic recording. New developments and recent progress: magnetic multilayer structures, granular magnetic thin films, giant magnetoresistance.
PHYS 5P75
Optical Properties of Solids
Measurement techniques; reflectivity, the dielectric function and the optical conductivity; Lorentz-Drude oscillator model; Kramers-Kronig transformations and sum rules; properties of metals, insulators and superconductors.
PHYS 5P76
Nuclear Magnetic Resonance
Density matrix formulation of NMR theory; spectroscopy of simple spin systems and spin-dependent interactions, relaxation theory; spin temperature; dipolar broadening in solids; NMR of soft condensed matter systems; practical aspects of high-fidelity solid-state NMR; NMR spectrometer design; NMR imaging and microscopy.
Prerequisite: PHYS 5P50
Note: a strong background in quantum mechanics will be expected.
PHYS 5P79
Experimental Methods in Condensed Matter Physics
Survey of experimental methods commonly used in condensed matter physics: optical and NMR spectroscopy, SQUID magnetometry, neutron and X-ray scattering, low-temperature and high-pressure technology. The techniques presented will vary. Designing experiments with advanced equipment and critical analysis of the results on both statistical and methodological grounds.
PHYS 5P91
Graduate Seminar
Independent study and presentation of major research papers in the area of specialization. A list of up to five papers is assigned by the supervisory committee and the student presentations are both in written and seminar form. Each student is required to attend and participate in all seminars given by students registered in the course. Students selecting this course must complete it in the first or second term of their graduate program.