Nicola Spaldin: Katalogdaten im Frühjahrssemester 2018

Auszeichnung: Die Goldene Eule
NameFrau Prof. Dr. Nicola Spaldin
Professur für Materialtheorie
ETH Zürich, HIT G 43.3
Wolfgang-Pauli-Str. 27
8093 Zürich
Telefon+41 44 633 37 55
Fax+41 44 633 14 59
BeziehungOrdentliche Professorin

327-1300-00LJoint Group Seminar Belegung eingeschränkt - Details anzeigen
Nur für Doktoranden D-MATL
0 KP1SM. Fiebig, N. Spaldin
KurzbeschreibungSeminar für Doktoranden und Forschende im Bereich Physik der kondensierten Materie.
LernzielVerbesserte Vernetzung der Forschungsprojekte der teilnehmenden Gruppen.
InhaltVorstellung und Diskussion aktueller Forschungsarbeiten.
Voraussetzungen / BesonderesEigene wissenschaftliche Arbeiten.
327-2207-00LSolid State Physics and Chemistry of Materials II Information
Prerequisite: Solid State Physics and Chemistry of Materials I (327-1202-00L).

Either 327-2207-00L Solid State Physics and Chemistry of Materials II or 327-2202-00L Size Effects in Materials can be counted as core course. The other will be counted as elective course.
5 KP4GN. Spaldin
KurzbeschreibungContinuation of Solid State Physics and Chemistry of Materials I
LernzielElectronic properties and band theory description of conventional solids
Electron-lattice coupling and its consequences in functional materials
Electron-spin/orbit coupling and its consequences in functional materials
Structure/property relationships in strongly-correlated materials
InhaltIn this course we study how the properties of solids are determined from the chemistry and arrangement of the constituent atoms, with a focus on materials that are not well described by conventional band theories because their behavior is governed by strong quantum-mechanical interactions. We begin with a review of the successes of band theory in describing many properties of metals, semiconductors and insulators, and we practise building up band structures from atoms and describing the resulting properties. Then we explore classes of systems in which the coupling between the electrons and the lattice is so strong that it drives structural distortions such as Peierls instabilities, Jahn-Teller distortions, and ferroelectric transitions. Next, we move on to strong couplings between electronic charge and spin- and/or orbital- angular momentum, yielding materials with novel magnetic properties. We end with examples of the complete breakdown of single-particle band theory in so-called strongly correlated materials, which comprise for example heavy-fermion materials, frustrated magnets, materials with unusual metal-insulator transitions and the high-temperature superconductors.
Voraussetzungen / BesonderesSolid State Physics and Chemistry of Materials I
402-0890-00LSeminars of the Platform for Advanced Scientific Computing (PASC)0 KP2SH. J. Herrmann, T. C. Schulthess, N. Spaldin
KurzbeschreibungSeminars by invited speakers in the area of advanced scientific computing.
LernzielDiscussion of state of the art techniques and methodologies in scientific computing.
InhaltThis course consists in a series of seminars by invited speakers on subjects of interest for the ``Platform for Advanced Scientific Computing''.
SkriptThere is no script.
LiteraturLiterature will be provided by the speakers in their respective presentations.
Voraussetzungen / BesonderesParticipants should have experience on advanced scientific computing.