Course - Ferroics - Materials synthesis, characterization and applications - MT8309
MT8309 - Ferroics - Materials synthesis, characterization and applications
About
Examination arrangement
Course content
The course is given every second year, next time will be autumn 2023. The course will present new, relevant and advanced topics on functional ferroic materials. Topics that will be covered include emergent characteristics, such as ferroic and multiferroic states of matter (ferroelectric, ferromagnetism, ferroelasticity, ferrotoroidicity) and the formation of domains / domain walls. A specific focus will be put on functional electric properties, including piezoelectric and relaxor behaviour in single crystals, ceramics, thin films and composites materials, as well as their applications. The course will be based on new original literature and will require an active participation from the candidates.
Learning outcome
The students will get an introduction and overview concerning the modern research on functional (ferroic) materials, covering all fields from advanced synthesis to characterization and applications. The current understanding of this class of materials will be discussed, as well as open questions and possible future research directions. The lecture will provide the basic knowledge that is required to follow scientific publications that are published in the field, to be able to use acquired knowledge on own research problems and discuss related problems. The participants will learn to give oral presentations about state-of-the-art research topics, transforming the challenging scientific papers they read into their own language, so that they can explain the content to other students and non-specialists.
Learning methods and activities
The teaching will be a combination of introductory lectures to the different core topics, colloquia and self-studies. Depending on the number of participants, 3 to 5 core topics will be identified. The lecturer will give a general introduction to each of these topics, followed by more specialized/focused talks given by the students. In order to prepare their oral presentation, the students will have to do a project work covering selected topics from the curriculum. The curriculum will be the same for all simultaneous candidates. The final exam will be an oral examination. Expected time usage: Lectures: 15 hours, work on semester project and presentation: 85 hours. Selfstudy: 100 hours.
Further on evaluation
One oral presentation needs to be given in front of the class. In addition, an oral exam needs to be passed. Weighting: Oral presentation 20/100 and exam 80/100.
Recommended previous knowledge
Basic knowledge in material synthesis, solid state physics, including crystal structures, point group symmetry operations, electronic and magnetic interactions.
Course materials
Literature: Will be given at the beginning of the course.
No
Version: 1
Credits:
7.5 SP
Study level: Doctoral degree level
Term no.: 1
Teaching semester: AUTUMN 2023
Language of instruction: English
Location: Trondheim
- Materials Science and Engineering
- Materials
- Solid State Physics
Department with academic responsibility
Department of Materials Science and Engineering
Examination
Examination arrangement: Assignment and oral examination
- Term Status code Evaluation Weighting Examination aids Date Time Examination system Room *
- Autumn ORD Oral examination 80/100 D
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Room Building Number of candidates - Autumn ORD Assignment 20/100 ALLE
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Room Building Number of candidates - Spring ORD Oral examination 80/100 D
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Room Building Number of candidates - Spring ORD Assignment 20/100 ALLE
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Room Building Number of candidates
- * The location (room) for a written examination is published 3 days before examination date. If more than one room is listed, you will find your room at Studentweb.
For more information regarding registration for examination and examination procedures, see "Innsida - Exams"