## Official description

Experiments in this course are designed to form a bridge to current experimental research. A wide range of experiments are available using contemporary techniques and equipment. In addition to the standard set of experiments a limited number of research projects are also available. Many of the experiments can be carried out with a focus on instrumentation.

Prerequisite
n.a
Co-requisite
n.a.
Exclusion
n.a.
Recommended preparation
n.a.
Textbook
                            ['n.a.']

BR=5
Distribution requirement
DR=SCI

Students have more freedom to progressively focus on specific areas of physics, do extended experiments, projects, or computational modules.

Some of the experiments available complement courses in condensed matter, molecular, atomic, nuclear and particle physics.  Others require completely individual study to understand the physics of the experiment.

Scanning tunneling microscope; a number of studies of x-ray diffraction and x-ray fluorescence; the infrared spectra of HC1, optical pumping, ionization studies for the mass spectrometer, Raman effect, electron spin resonance, nuclear magnetic resonance, electron microscope, Brillouin spectroscopy, the helium-neon laser, fiber optics, conventional and high Tc superconductivity, magnetoresistance, the Hall effect of semiconductors, the Mossbauer effect, and other atomic, molecular and solid state experiments.  Nuclear and particle physics experiments include the study of radio-activity, neutron diffusion in a water bath, high resolution gamma ray spectroscopy with germanium detectors, and muon life time measurements.

course title
PHY327H1
session
fall
year of study
3rd year
time and location
72P: T9-12, F9-12, Room: MP 251
Course URL
http://www.physics.utoro…
coordinator
David C. Bailey
416-978-4993
MP919

#### Delivery Methods

In Person

A course is considered In Person if it requires attendance at a specific location and time for some or all course activities.*.

* Subject to adjustments imposed by public health requirements for physical distancing.

Online - Synchronous
A course is considered Online Synchronous if online attendance is expected at a specific time for some or all course activities, and attendance at a specific location is not expected for any activities or exams.
Asynchronous
A course is considered Asynchronous if it has no requirement for attendance at a specific time or location for any activities or exams.