Jörg F. Löffler: Katalogdaten im Frühjahrssemester 2018

NameHerr Prof. Dr. Jörg F. Löffler
LehrgebietMetallphysik und Technologie
Adresse
Metallphysik und Technologie
ETH Zürich, HCI J 492.2
Vladimir-Prelog-Weg 1-5/10
8093 Zürich
SWITZERLAND
Telefon+41 44 632 25 65
Fax+41 44 633 14 21
E-Mailjoerg.loeffler@mat.ethz.ch
DepartementMaterialwissenschaft
BeziehungOrdentlicher Professor

NummerTitelECTSUmfangDozierende
327-0711-00LMetal Physics and Technology Seminar0 KP2SJ. F. Löffler
KurzbeschreibungSeminar für Doktoranden und Forschende im Bereich Metallphysik und -technologie.
LernzielVertiefte Ausbildung von Forschern auf dem Gebiet metallischer Werkstoffe.
InhaltVorstellung und Diskussion neuester Forschungsarbeiten betreffend wissenschaftliche Grundlagen und Entwicklung metallischer Werkstoffe.
Voraussetzungen / Besonderes- Voraussetzungen: Eigene wissenschaftliche Arbeiten.
- Vorträge sind normalerweise in Englisch.
327-2203-00LComplex Materials II: Structure & Properties5 KP4GJ. F. Löffler, M. Fiebig
KurzbeschreibungThe course presents structure-property relationships in complex materials, such as photonic or ferroic crystals, heterostructures, and disordered materials.
LernzielThe aim of the course is to impart detailed knowledge of the structure-property relationships in complex materials, such as photonic or ferroic crystals, heterostructures, and disordered materials.
InhaltPart 1 focuses on the synthesis and processing of amorphous materials using physical routes. The resulting structure is discussed, as well as their thermodynamics and kinetics. The course focuses in particular on the relationships between the structure of glassy metals and other disordered materials and their resulting mechanical, thermophysical, biomedical and electronic properties. As to processing, new manufacturing routes such as 3D printing of metals are also introduced.

In part 2, single crystals and heterostructures will be investigated for unconventional manifestations of ferroic order, such as (anti-) ferromagnetism, ferroelectricity, ferrotoroidicity and in particular the coexistence of two or more of these. Domains and their interaction are of particular interest. They are visualized by laser-optical and force microscopy techniques. Very often the (multi-)ferroic order is a consequence of the competing interactions between spins, charges, orbitals, and lattices. This interplay is resolved by ultrafast laser spectroscopy with access to the sub-picosecond timescale.
Skripthttp://www.metphys.mat.ethz.ch/education/lectures/complex-materials-ii.html
LiteraturReferences to original articles and reviews for further reading will be provided.
Voraussetzungen / BesonderesKnowledge in the physics of materials, as provided by the ETH Zurich B.S. curriculum in Materials Science.