Radiation Detectors and Measuring Methods
In this course you learn about the physical principles behind—and the properties of—detectors used in medical applications. You will carefully study gas-, scintillation- and semiconducter-based detectors as well as detectors for neutrons. The primary output from such detectors is generally quite weak and an important aspect of this course is the introduction to various methods to detect feeble pulses of charges. You will perform practical quantitative measurements of the activity of radioactive substances. You will extend your prior knowledge on statistical treatment of experimental data and on estimates of systematic errors. In medical applications, it is obviously of great concern to be able to correctly estimate the experimental uncertainties and in this course, the principles for determining uncertainties, precision and accuracy are emphasized.
This course is given during daytime. The course is part of the Medical Physicist Programme, but it can also be taken as an independent course.
Teaching Format
The teaching consists of lectures, group education, exercises and practical labs.
Assessment
The theoretical part of the course is assessed through a written exam, while the laboratory exercises are assessed through written reports.
Examiner
Claus Grupen, Boris A. Shwartz, "Particle detectors", Second Edition, Cambridge University Press, 2008
Här ligger ett skript.
Course coordinator and teacher:
Richard Thomas, e-post: rdt@fysik.su.se
Laboratory supervisor:
Wille Häger, e-mail: wille.hager@fysik.su.se
Suryakant Kaushik, e-mail: suryakant.kaushik@fysik.su.se
Academic advisor at the Department of Physics: studievagledare@fysik.su.se
Student office: studentexp@fysik.su.se
