VVZ API is not affiliated with ETH Zurich. Data might be outdated or incorrect. Please view the official ETHZ Vorlesungsverzeichnis for binding information.

151-2043-00L 4 Credits MSC D-MAVT

You're viewing possible stale or outdated data. Please check the latest semester for more up-to-date information.

Radiation Biology, Protection and Applications (EPFL)

No enrolment to this course at ETH Zurich. Book the corresponding module directly at EPFL.

VVZ CR n/a

Last Updated: 2026-02-05 16:29:42

Abstract

An introductory course in the basic concepts of radiation detection and interactions and energy deposition by ionizing radiation in matter, radioisotope production and its applications in medicine, industry and research. The course includes presentations, lecture notes, problem sets and seminars.

Objective

By the end of the course, the student must be able to: Explain the basic physics principles that underpin radiotherapy, e.g. types of radiation, atomic structure, etc. Explain the interaction mechanisms of ionizing radiation at keV and MeV energies with matter. Explain the principles of radiation dosimetry. Explain the principles of therapeutic radiation physics including X-rays, electron beam physics, radioactive sources, use of unsealed sources and Brachytherapy. Describe how to use radiotherapy equipment both for tumour localisation, planning and treatment. Define quality assurance and quality control, in the context of radiotherapy and the legal requirements. Explain the principles and practice of radiation protection, dose limits, screening and protection mechanisms. Explain the use of radiation in industrial and research applications.

Content

Basics: radiation sources and interaction with matter, radioisotope production using reactors and accelerators, radiation protection and shielding. Medical applications: diagnostic tools, radiopharmaceuticals, cancer treatment methodologies such as brachytherapy, neutron capture therapy and proton therapy. Industrial applications: radiation gauges, radiochemistry, tracer techniques, radioisotope batteries, sterilization, etc. Applications in research: dating by nuclear methods, applications in environmental and life sciences, etc.

General Information

Language: English
Levels: MSC
Frequency: Yearly recurring

Examination

Type: graded semester performance

Registration modalities, date and venue of this performance assessment are specified solely by the EPFL.

Course Components

Type	Title	Time & Place	Hours
lecture with exercise	Radiation Biology, Protection and Applications (EPFL) Course at EPFL	No time listed	3 h weekly

Offered In

Nuclear Engineering Master (MSc Nuclear Engineering is a joint program of EPF Lausanne and ETH Zurich. The first semester takes place in Lausanne. Students therefore have to enroll at EPFL. For more information about the curriculum and courses see: ?)
- Core Courses
  - 1. Semester (EPFL)