Physics & Astronomy

The Department of Physics at Queen’s is one of Canada’s leading teaching and research institutes in Physics, Engineering Physics and Astronomy. Our faculty include high-profile, world-class physicists and astronomers such as Nobel Laureate Art McDonald. Queen’s is home to the Arthur B. McDonald Canadian Astroparticle Physics Research Institute with its world-leading research activities and suite of experiments located at SNOLAB. The Physics Department also created the first Engineering Physics program in Canada. World-leading researchers in quantum optics, nanoscience and nanophotonics merge our strength in applied physics with fundamental research in condensed matter physics and optics.

Physics at Queen’s combines high-calibre research with an intermediate-scale learning setting, enabling attention and care towards undergraduate teaching as well as exposure to a broad range of topics and expertise. Our students will learn in an engaging environment with the opportunity to conduct interdisciplinary research in state-of-the-art laboratories, and work on projects involving international collaborators such as the experiments in dark matter and neutrinos happening below the surface of the Earth at the Sudbury Neutrino Observatory (SNOLAB).

Top 5 Reasons to study Physics:

  1. The department is one of Canada’s leading teaching and research institutes in Physics and Astronomy.
  2. Award-winning physics educators such as 3M National Teaching Fellow James Fraser.
  3. Our internship program (QUIP) offers a wide range of careers to explore and companies to learn from.
  4. Brand new astroparticle physics institute named after Queen’s Nobel Prize Laureate Art McDonald.
  5. 25+ summer research assistant positions offered by the department to students every summer.

“For me, the community within the Physics Department was by far the best aspect of studying Physics at Queen’s. The engaging instructors, knowledgeable technologists, helpful administrative and support staff, and my collaborative peers all contributed to my learning in the most positive way.”
                                                                                                                                  -Kate Fenwick, BScH ‘17


Stirling Hall
Room number: 
Department Head: 
Robert Knobel
Departmental Assistant: 
Tammie Kerr
Graduate Chair: 
James Fraser
Graduate Assistant: 
Loanne Meldrum
Undergraduate Chair: 
Robert Gooding
Undergraduate Assistant: 
Melissa Balson
Bachelor of Science (Honours) - BScH

Specialization in Physics
An intensive course of study with approximately two-thirds of your courses within the discipline.

Specialization in Astrophysics
An intensive course of study with approximately two-thirds of your courses within the discipline.

Specialization in Mathematical Physics
An intensive course of study with approximately two-thirds of your courses within the discipline.

Major in Physics
A major is an intensive course of study in one discipline, with approximately half of your courses within the discipline with room for an optional minor in any other Arts and Science discipline.

Minor in Physics
A minor is a less intensive course of study in the discipline that must be combined with a major in another discipline.

Internship option available

For a full list of Degree Plans, see the Academic Calendar

Graduate Degree Options

Physics - MSc
Physics - PhD


Alumni Career Statistics

  • 11% of alumni work in GOVERNMENT
  • 18% of alumni work in BUSINESS & LAW
  • 18% of alumni work in TECHNOLOGY
  • 31% of alumni work in EDUCATION & RESEARCH

Physics is the basic science that provides the framework for other natural and applied science such as geophysics, molecular biology, meteorology, oceanography, electronics, electro-optics, materials science and medical physics. 

Where could Physics and Astronomy students go after graduation?

  • Acoustics
  • Aerospace
  • Alternative energy
  • Animation
  • Astronomy
  • Astrophysics
  • Atmospheric science and modeling
  • Biophysics
  • Computer engineering
  • Computer simulations
  • Education and teaching
  • Financial modelling
  • Forensic science
  • Fundamental physics research
  • Geophysics 
  • Imaging
  • Information specialist
  • Law
  • Medical imaging and medical physics
  • Medicine
  • Nanoscience
  • Nuclear Engineering
  • Oceanogrephy
  • Optometry
  • Photonics
  • Planetary science
  • Private and public research
  • Radiology
  • Remote sensing
  • Robotics
  • Space science
  • Technology industry
Taking time to explore career options, build experience and network can help you have a smooth transition to the world of work after graduation. Note: Some of these careers may require additional training.

The first Queen's Observatory was established in the mid-19th century, the beginning of a long and distinguished history of astronomical observing at Queen's University. The current Observatory houses a 14-inch reflecting telescope in a dome on the roof of Ellis Hall, used primarily for student training and public demonstrations. 

There are public tours and school tours. For more detailed information on tours and programs, please visit the website for more information at


Dr. Ted Hsu graduated from Queen’s in 1984 (B.Sc., Honours Physics). He proceeded to complete his Ph.D. in Physics at Princeton University in 1989. Ted changed career directions to work as an equities trader and financial manager in Paris and Philadelphia for Banque Nationale de Paris, and served as executive director in the Tokyo office of Morgan Stanley. He returned to Canada and Kingston, becoming the executive director of SWITCH, a not-for-profit that promotes job creation and investment in sustainable energy before entering politics and being elected as a Member of Parliament in 2011. MP for Kingston and the Islands, Dr. Ted Hsu (ArtSci ’84) parliamentarians from all parties as the MP who “Best Represents Constituents”. MP for Kingston and the Islands, Dr. Ted Hsu (ArtSci ’84)


First-year students can take a physics course with 3M National Teaching Fellow Prof. James Fraser. In 2nd and 3rd years students study topics such as classical mechanics, electromagnetism, thermodynamics, advanced laboratory, relativity and quantum mechanics. In 4th year, students have the opportunity to take specialized courses in current, modern subjects such as nanoscience, medical physics, lasers, nuclear and particle physics, solid state physics and general relativity.

Course Spotlight

PHYS 483: Nanoscience and Nanotechnology

An examination of the key ideas, techniques and technologies in the fields of nanoscience and nanotechnology. Emphasis will be placed on the physics involved, measurement techniques, and technological applications.


Students apply to Queen’s Science (QS) through the OUAC (Ontario Universities' Application Centre) website ( Secondary School prerequisites include English 4U, Advanced Functions 4U, Calculus and Vectors 4U, plus two of Biology 4U, Chemistry 4U or Physics 4U. Visit for additional information regarding requirements and admission to Queen’s.

see full admission requirements

After first year, in May, students will declare their area of study (major, minor, specialization, e.g.). The thresholds are competitive year to year and do change. The 2017-18 thresholds for Physics and Astronomy are: 2.3 Cumulative GPA and a Minimum C+ in PHYS 10# for AUTOMATIC ACCEPTANCE to the Physics Major Plan and 2.7 Cumulative GPA and a Minimum B- in PHYS 10# for AUTOMATIC ACCEPTANCE to the Physics and Astrophysics Specialization Plans; PENDING LISTs for Major and Physics and Astrophysics Specializations require only a pass in PHYS 10#. The Mathematical Physics plan offers no AUTOMATIC ACCEPTANCE, but does offer a PENDING LIST which requires 0.7 Cumulative GPA and Minimum C in MATH 1##. 

information on plan selection


The Physics and Astronomy department provides exciting opportunities for graduate students to study in many stimulating research environments. In addition to a large number of high-profile professors, they have recently recruited many new world-class physicists who are setting up exceptional research programs in cutting-edge areas of theoretical, applied and experimental physics.

The Department of Physics at Queen's University is one of the leading Physics research institutes in Canada. The research carried out by undergraduate and graduate students, faculty and staff occurs both on campus, as well as at external facilities such as the Sudbury Neutrino Observatory, the Cancer Centre of Southeast Ontario, the HPCVL supercomputer and astronomical observatories around the world. Research is broadly categorized into 4 groups:

Before applying, you are encouraged to visit the websites of the Research Faculty (see under ‘Research Groups) and consider the research areas that interest you.

Applications to the graduate program are handled by the School of Graduate Studies. Application procedures and online forms can be found by visiting their website.

When your application is complete it will be forwarded to the Department and reviewed by all faculty members in the research fields you have indicated. If at least one faculty member wishes to have you join his or her group, then the Department will recommend to the Graduate School that you be admitted into graduate studies.

If accepted into our Graduate program, students are guaranteed the following minimum stipends:

  •  M.Sc. or M.A.Sc.: $24,250 p.a. for a two year period
  •  Ph.D. : $25,450 p.a. for a four year period

The stipend is made up of funding you receive as a TA (teaching assistant), as well as internal fellowships and bursaries and support from your supervisor. The amounts represent the minimum; stipends can range up to ~$30,000 if students are awarded external scholarships (NSERC, OGS, etc). Incoming students holding an NSERC, PGSM and PGSD receive an additional $5000 for their first year, on top of their regular stipend. Graduate tuition fees for domestic (Canadian and landed immigrant) students are typically ~$6000. International student fees are ~$11,400. The department will provide a tuition bursary of $5,000 to international students to bring their fees to approximately the same level as domestic students.


Students in the Astrophysics and Astronomy program can carry out observational research programs at leading astronomical facilities around the world. There are a broad array of research topics. The fields of interest within the group include:

  •   cosmology
  •   dark matter
  •   general relativity
  •   galaxy structure and formation
  •   globular cluster systems
  •   the interstellar medium
  •   stellar atmospheres and evolution
  •   stellar populations
  •   solar system dynamics

Queen's Condensed Matter Physics and Optics is the largest group in the department, combining strengths in condensed matter physics and light-matter interactions. In condensed matter physics, the objectives are to provide understanding of the enormously rich behaviour of condensed matter systems under a wide variety of conditions. Systems consist of combinations of the hundred or so elements in the form of solids, quantum dots, small clusters, liquids, and dense gases, and in which the multitude of constituent parts are all interacting with one another. They exist under conditions of temperature ranging from the very lowest imaginable, at which superconductivity and superfluidity occurs, to the boiling point. The application of external fields to the systems allows us to probe the system, studying the electrical and thermal transport, magnetic properties and optical interactions. A growing strength within the group is in optics research and light-matter interactions in optical materials and nanostructures, covering a range of research topics including quantum optics, nanophotonics, spintronics, organic LEDs, scanning probes, and ultrafast nonlinear optics.

Queen's has a rich and varied history in engineering and applied physics. Research in the group covers a wide range of topics, with the common theme of using basic science and physics to improve the quality of life and to solve current or future problems facing people both in Canada and worldwide. This research spans areas of photonics, quantum information technology, medical physics, non-destructive evaluation, materials physics, electronic device physics, and plasma physics. Most of our faculty are registered engineers and many have worked in industry and start-up companies. Theoretical & Computational Research areas include: Nanophotonics, light-matter interactions, nano-devices, semiconductor optoelectronics, computational electrodynamics, quantum information technologies. Experimental Research areas include: Glancing angle deposition, optics of anisotropic thin films and materials, nanoscale electronics and mechanics, organic and polymer light-emitting devices, small-angle x-ray scattering, ultrasonic imaging, clinical cancer care, radiation physics, non-destructive stress evaluation.

The Queen's Particle Astrophysics group is a world leader in the field, and pursues questions that are found at the intersection of astrophysics and particle physics. Questions such as: 

  • What is the nature of dark matter and dark energy?
  • How have the properties of particles, like the neutrino, shaped the evolution of the universe? 
  • What are cosmic rays and what accelerates them?
  • Are protons stable?
  • Are there additional space-time dimensions?