## Admission Requirements

Introduction to solid state physics: bandstructure, crystal symmetries, phonons. Introductory quantum mechanics course.

## Description

In this course we provide students that have an experimental interest,, with an overview of topics that are of interest in current condensed matter physics research. The course puts an emphasis on the research performed in the condensed matter groups in the Leiden institute of physics.

We discuss Mesoscopic physics, Coulomb blockade, co-tunneling, Kondo effect, Graphene, Drude model, mobility, Quantum Hall effect, Fractional quantum hall effect, nuclear magnetic resonance as a probe of electronic states, triplet superconductivity, Topological insulators, Mott insulator, strange metal, phase diagram.

## Course objectives

The student is able to recognize a system that is described by single electron physics.

The student is able to explain how a correlated electron system is different .

The student has studied an example of frontier research in condensed matter, and summarized it.

After this course the student is able to apply the methods of this course to examples that illustrate the many-particle physics that is being studied in condensed matter physics today.

## Timetable

## Mode of instruction

12 times a 2 hour lecture and 6 times a 2 hour workgroup

## Assessment method

100% of the grade is due to the exam.

## Blackboard

Blackboard is used to distribute Course information

To have access to Blackboard you need a ULCN-account.Blackboard UL

## Reading list

Material will be available through blackboard and must be studied before the start of each lecture.

## Contact information:

Lecturers

Prof.dr.ir.T.jerk Oosterkamp