Sebastian Huber: Katalogdaten im Herbstsemester 2016

NameHerr Dr. Sebastian Huber
LehrgebietTheoretische Festkörperphysik und Quantenoptik
Adresse
Institut für Theoretische Physik
ETH Zürich, HIT K 23.4
Wolfgang-Pauli-Str. 27
8093 Zürich
SWITZERLAND
Telefon+41 44 633 25 65
E-Mailsebastian.huber@itp.phys.ethz.ch
URLhttp://cmt-qo.phys.ethz.ch
DepartementPhysik
BeziehungDozent

NummerTitelECTSUmfangDozierende
402-0101-00LThe Zurich Physics Colloquium Information 0 KP1KR. Renner, G. Aeppli, C. Anastasiou, N. Beisert, G. Blatter, S. Cantalupo, M. Carollo, C. Degen, G. Dissertori, K. Ensslin, T. Esslinger, J. Faist, M. Gaberdiel, T. K. Gehrmann, G. M. Graf, R. Grange, J. Home, S. Huber, A. Imamoglu, P. Jetzer, S. Johnson, U. Keller, K. S. Kirch, S. Lilly, L. M. Mayer, J. Mesot, B. Moore, D. Pescia, A. Refregier, A. Rubbia, K. Schawinski, T. C. Schulthess, M. Sigrist, M. Troyer, A. Vaterlaus, R. Wallny, A. Wallraff, W. Wegscheider, A. Zheludev, O. Zilberberg
KurzbeschreibungResearch colloquium
Lernziel
Voraussetzungen / BesonderesOccasionally, talks may be delivered in German.
402-0800-00LThe Zurich Theoretical Physics Colloquium Information 0 KP1KS. Huber, C. Anastasiou, N. Beisert, G. Blatter, M. Gaberdiel, T. K. Gehrmann, G. M. Graf, P. Jetzer, L. M. Mayer, B. Moore, R. Renner, T. C. Schulthess, M. Sigrist, M. Troyer, O. Zilberberg, Uni-Dozierende
KurzbeschreibungResearch colloquium
LernzielThe Zurich Theoretical Physics Colloquium is jointly organized by the University of Zurich and ETH Zurich. Its mission is to bring both students and faculty with diverse interests in theoretical physics together. Leading experts explain the basic questions in their field of research and communicate the fascination for their work.
402-0801-66LMechanical Metamaterials4 KP2V + 1US. Huber
KurzbeschreibungA mechanical metamaterial derives its static or dynamic properties not from its microscopic composition but rather through its clever engineering at larger scales. In this course we introduce the basic principles behind the design of modern mechanical metamaterials such as the use of Bragg scattering, local resonances, topological band-structures, and non-linear effects.
LernzielThe students should get acquainted with a modern toolbox in the design of mechanical metamaterials. Equipped with the knowledge of the key design principles, the students will be able to choose the appropriate approach to create a metamaterial with a pre-defined functionality either for dynamic applications such as vibration isolation, wave-guiding, or the design of a heat-diode, or static properties such as stress absorption or the design of mechanisms used in robotics.
Inhalt1.) Wave propagation in continuous systems
2.) Wave properties
3.) Discrete systems
4.) Local resonances
5.) Topology by example
6.) Topological classification
7.) Static systems
8.) Non-linear waves
SkriptHand-outs will be available in class.