Magneto-Optical Experimental Methods 390-FS2-1EMM
Year of study / semester: 1 year/2 semester
Number of hours of didactic classes: Lecture - 30 h, laboratory - 30 h
Total ECTS: 6
The range of topics:
Topics taken at the lecture:
1) Methods based on the Faraday effect and on the Kerr effect.
2) Magneto-optical synchrotron techniques.
3) Methods using femtosecond pulses of light.
Topics taken during the laboratory :
1) Jones formalism.
2) Magnetic properties of thin layers.
3) Magneto-optical effects.
4) Analysis of images of domain structures.
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Term 2024:
None |
Mode
Course coordinators
Type of course
Term 2024: obligatory courses (in Polish) kierunkowe | General: (in Polish) kierunkowe obligatory courses |
Learning outcomes
Student:
1. knows and understands in-depth the mathematical issues necessary in physics and astronomy within the scope of the curriculum (KP7_WG1)
2. knows and understands the issues related to tools and methods used in various fields of physics, and within the scope of the curriculum, medical applications (KP7_WG3)
3. knows and understands specialist research tools used in a selected field of physics, including, within the scope of the curriculum, measurement procedures used in medical physics (KP7_WG4)
4. knows and understands the principles of planning and conducting complex, multi-stage scientific research in physics, including, within the scope of the curriculum, applications in medical practice (KP7_WG5)
5. is able to properly select mathematical models to solve and analyze physical problems (KP7_UW1)
6. is able to select and apply in practice research tools appropriate for a given field of physics (KP7_UW2)
7. is ready to continuously improve their own competences, taking into account the rapid progress in the field of physics (KP7_KK1)
8. is ready to critically evaluate the knowledge he possesses when dealing with real research and applied problems (KP7_KK2)
Assessment criteria
An examination consisting of both written and oral parts. Obtaining at least 50 percentage points means getting a positive grade.
Bibliography
Recommended literature:
1. A K Zvezdin and V A Kotov, Modern Magnetooptics and Magnetooptical Materials, Institute of Physics Publishing Bristol and Philadelphia, 1997
(electronic version available at the lecturer).
Additional literature:
1. Alex Hubert, Rudolf Schäfer, Magnetic Domains, The Analysis of Magnetic Microstructures, ISBN 978-3-540-64108-7 Springer Berlin Heidelberg New York, 2009.
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Term 2024:
None |
Additional information
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: