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Geophysical Field Work and Processing: Methods
Last Updated: 2026-02-05 16:38:38
Abstract
Mapping aquifers for water supply, identifying archaeological remains to protect them, and investigating landslides for geohazard assessments are three examples highlighting the critical role played by near-surface geophysics. The course ‘Geophysical Field Work and Processing’ split into ‘Methods’, ‘Preparation’ and ‘Field Work’ provides an introduction into near-surface geophysical field work.
Objective
The overall learning objective of the course 'Geophysical Fieldwork and Processing' is that by the end of the course the students will be able to plan and conduct a near-surface geophysical field campaign to address a real-world problem as well as to process their self-acquired data, and interpret and document their results. The 'Methods' part is a step towards this objective. By the end of the 'Methods' part, the students will be able (1) to summarize the working principles of the most important geophysical methods and (2) to identify the underlying physics of a ‘real-world’ problem to translate that problem into a ‘tractable’ geophysical research question.
Content
The ‘Methods’ part of the course ‘Geophysical Field Work and Processing’ is centered around learning and refreshing the basic principles of the most common geophysical field techniques such that the students have the necessary background to plan a geophysical field campaign (topic of the ‘Preparation’ part), to conduct these campaigns in the subsequent ‘Field Work’ course part as well as to analyze and interpret their self-acquired geophysical data (topic of ‘Field Work’ part). The ‘Methods’ part is a combination of self-study and classroom sessions. The students will study at their own pace online lectures and learning material provided on ETH's Moodle platform. Regular classroom sessions will be dedicated to applying and deepening the acquired knowledge in hands-on exercises. The online lectures and quizzes covering short reviews of the theory, techniques, acquisition and processing complemented by reading material focus on the most common geophysical techniques: - Ground Penetrating Radar; - Electrical Resistivity Tomography; - Magnetic Surveying; - Electromagnetic Induction Surveying; - Seismic Refraction Tomography.
Resources
Lecture Notes
Available over the ETH online lecture Moodle page.Link will be given during the first lecture.
Literature
Recommended literature: An introduction to geophysical exploration Third Edition Kearey, Brooks, and Hill 2002, WILEY-BLACKWELL ISBN: 978-0-632-04929-5 Further recommended literature: Environmental Geology Handbook of Field Methods and Case Studies Knödel, Klaus, Lange, Gerhard, Voigt, Hans-Jürgen Bundesanstalt für Geowissenschaften (Ed.) 2007, XXVI, 1358 p. 501 illus., 243 in color., Hardcover ISBN: 978-3-540-74669-0 Fundamentals of Geophysics William Lowrie 2nd Edition Cambridge University Press ISBN: 9780521675963 Good overview literature: An Introduction to Applied and Environmental Geophysics John M, Reynolds WILEY-BLACKWELL ISBN: 978-0-471-48535-3 More detailed and specific: Near-Surface Geophysics Edited by Dwain K. Butler Society of Exploration Geophysicists (SEG) ISBN: 9781560801306 (13); 1560801301 (10)
General Information
- Language
- English
- Levels
- MSC
- Frequency
- Yearly recurring
Examination
- Type
- graded semester performance
Course Components
| Type | Title | Time & Place | Hours |
|---|---|---|---|
| lecture | Geophysical Field Work and Processing: Methods |
|
35 h semesterly |