Concept
Strongly correlated material
Related courses (10)
PHYS-420: Solid state physics IV
Solid State Physics IV provides a materials and experimental technique oriented introduction to the electronic and magnetic
properties of strongly correlated electron systems. Established knowledge is
PHYS-419: Solid state physics III
The aim of this course is to provide an introduction to the theory of a few remarkable phenomena of modern condensed matter physics ranging from the quantum Hall effects to superconductivity.
PHYS-636: General aspects of the electronic structure of crystals
The course is aimed at giving a general understanding and building a feeling of what electronic states inside a crystal are.
PHYS-462: Quantum transport in mesoscopic systems
This course aims to introduce the transport behaviors of micron-size systems, emphasizing learning about recent path-breaking experiments on 2D systems such as Graphene and other vad der Waala materia
PHYS-718: Condensed matter from a many-electron point of view
The course will introduce basic concepts for the description of electrons in condensed matter from a microscopic many-body approach,
and relate results obtained by quantum field theoretical methods t
PHYS-756: Lectures on twisted bilayer graphene
Twisted Bilayer Graphene (TBG) is a change of paradigm in condensed matter: with flat topologic bands, it provides a platform for unconventional superconductivity, correlated insulation, Plankian meta
MSE-468: Atomistic and quantum simulations of materials
Theory and application of quantum simulations to model, understand, and predict the properties of real materials.
PHYS-433: Semiconductor physics and light-matter interaction
Lectures on the fundamental aspects of semiconductor physics and the main properties of the p-n junction that is at the heart of devices like LEDs & laser diodes. The last part deals with light-matter
PHYS-511: Electron spectroscopy
Series of lectures covering the use of electron spectroscopy for the study of the electronic and atomic structure of surfaces, nanostructures, and quantum materials. Special attention is given to vari
MSE-480: Dielectric properties of materials
Students learn about response of electrically insulating materials to electrical and mechanical fields. The emphasis is on effect of various types of defects on properties, on crystal structure/micros