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Collective Quantum Dynamics

Prof. Michael Knap

Research Field

The research of our group aims at a broad range of questions from condensed matter theory and bridges to quantum optics, atomic physics, and computational sciences. Interactions and correlations in condensed matter systems often manifest in striking and novel properties. These properties emerge from collective behavior of the quantum particles. Many examples can be found in nature, including superconductors, quantum magnets and superfluids. Our research address various questions in non-equilibrium quantum dynamics and transport in ultracold quantum gases, interacting light-matter systems, and correlated quantum materials.

Address/Contact

James-Franck-Str. 1
85748 Garching b. München

Members of the Research Group

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Office

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Teaching

Course with Participations of Group Members

Offers for Theses in the Group

Relaxation Dynamics of the strongly correlated Hubbard Model
suitable as
  • Bachelor’s Thesis Physics
Supervisor: Michael Knap
Disordered quantum systems: Many-body localization

Disorder has a drastic influence on transport properties. In the presence of a random potential, a system of electrons can become insulating; a phenomenon known as many-body localization (MBL) that has been envisioned by the Nobel laureate Phil Anderson. However, even beyond the vanishing transport such systems have very intriguing properties. For example, many-body localization describes an exotic state of matter, in which fundamental concepts of statistical mechanics break down. In this project we will explore these exciting aspects of many-body localization.

suitable as
  • Bachelor’s Thesis Physics
Supervisor: Michael Knap
Constrained Quantum Many-Body Systems
suitable as
  • Bachelor’s Thesis Physics
Supervisor: Michael Knap

Current and Finished Theses in the Group

Adiabatic nonequilibrium protocols in cold atoms and bosonization
Abschlussarbeit im Bachelorstudiengang Physik
Themensteller(in): Michael Knap
Acceleration and Melting of Bound States in the XXZ Spin Chain
Abschlussarbeit im Bachelorstudiengang Physik
Themensteller(in): Michael Knap
Entanglement Dynamics in Quantum Many-Body Systems with Constraints
Abschlussarbeit im Bachelorstudiengang Physik
Themensteller(in): Michael Knap
Quantum Convolutional Neural Networks for detecting the phase transition in the 1-D Transverse Field Ising Model
Abschlussarbeit im Bachelorstudiengang Physik
Themensteller(in): Michael Knap
Non-Equilibrium Dynamics of the Mass-Imbalanced Fermi-Hubbard Model
Abschlussarbeit im Masterstudiengang Physik (Physik der kondensierten Materie)
Themensteller(in): Michael Knap
Far-From-Equilibrium Field Theory of Interacting Lattice Bosons with Charge and Dipole Conservation
Abschlussarbeit im Masterstudiengang Physik (Physik der kondensierten Materie)
Themensteller(in): Michael Knap
Neural Network Studies of the Transverse Field Ising Model
Abschlussarbeit im Bachelorstudiengang Physik
Themensteller(in): Michael Knap
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