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Prof. Dr. techn. Michael Knap

Photo von Prof. Dr. Michael Knap.
Phone
+49 89 289-53777
Room
037
E-Mail
michael.knap@ph.tum.de
Links
Homepage
Page in TUMonline
Group
Collective Quantum Dynamics
Job Title
Professorship on Collective Quantum Dynamics
Consultation Hour
Jederzeit nach Vereinbarung

Courses and Dates

WS 2022/3 SS 2022 WS 2021/2 SS 2021
Title and Module Assignment
ArtSWSLecturer(s)Dates
Quantum Many-Body Physics
eLearning course
Assigned to modules:
VO 4 Knap, M. Mon, 08:30–10:00, PH HS3
Wed, 16:00–18:00, PH HS2
Quantum Computing and Quantum Simulations
eLearning course
Assigned to modules:
PS 2 Knap, M. Knolle, J. Pollmann, F.
Theory of Quantum Matter
Assigned to modules:
PS 2 Knap, M. Knolle, J. Pollmann, F. Tue, 14:00–16:00, PH 1121
Exercise to Quantum Many-Body Physics
Assigned to modules:
UE 2 Arzi, O. Birnkammer, S. Zechmann, P. Zerba, C.
Responsible/Coordination: Knap, M. 		dates in groups
Open Tutorial to Quantum Many-Body Physics
Assigned to modules:
UE 2
Responsible/Coordination: Knap, M. 		dates in groups
FOPRA Experiment 34: Simulating Quantum Many-Body Dynamics on a Current Digital Quantum Computer (QST-TH)
eLearning course course documents
Assigned to modules:
PR 2 Kadow, W. Liu, Y.
Responsible/Coordination: Knap, M.
Condensed Matter Theory Journal Club
Assigned to modules:
SE 2 Knap, M. Knolle, J. Pollmann, F. Thu, 14:00–16:00, PH 3343
Master’s Seminar: Collective Quantum Dynamics: Quantum Dynamics of Gauge Theories
This course is not assigned to a module.
SE 3 Knap, M.
Assisstants: Arzi, O.
Master’s Seminar: Collective Quantum Dynamics: Quantum Simulation with Trapped Ions
This course is not assigned to a module.
SE 3 Knap, M.
Assisstants: Birnkammer, S.
Master’s Seminar: Collective Quantum Dynamics: Theoretical Quantum Computation
This course is not assigned to a module.
SE 3 Knap, M.
Assisstants: Hauschild, J.
Master’s Seminar: Collective Quantum Dynamics: Theoretical Quantum Simulation
This course is not assigned to a module.
SE 3 Knap, M.
Assisstants: Bastianello, A.
Seminar on Collective Quantum Dynamics
Assigned to modules:
SE 2 Knap, M.
Condensed Matter Theory Seminar
eLearning course
Assigned to modules:
SE 2 Knap, M. Knolle, J. Pollmann, F. Wed, 14:00–16:00, PH 3344
Condensed Matter Theory Blackboard Seminar
Assigned to modules:
SE 2 Knap, M. Knolle, J. Pollmann, F. Mon, 14:00–16:00, PH 3343
Seminar for Tutors in Quantum Many-Body Physics
This course is not assigned to a module.
SE 1 Knap, M.

Offered Bachelor’s or Master’s Theses Topics

A finite temperature quantum algorithm for the Hubbard model
The goal of the thesis is to develop an analyze finite temperature algorithms for quantum computers. The field is quickly evolving. Please contact me to discuss a concrete project.
suitable as
  • Master’s Thesis Quantum Science & Technology
Supervisor: Michael Knap
A finite temperature quantum algorithm for the Hubbard model
The goal of the thesis is to develop an analyze finite temperature algorithms for quantum computers. The field is quickly evolving. Please contact me to discuss a concrete project.
suitable as
  • Master’s Thesis Condensed Matter Physics
Supervisor: Michael Knap
A finite temperature quantum algorithm for the Hubbard model
The goal of the thesis is to develop an analyze finite temperature algorithms for quantum computers. The field is quickly evolving. Please contact me to discuss a concrete project.
suitable as
  • Master’s Thesis Theoretical and Mathematical Physics
Supervisor: Michael Knap
Dynamik im stark korrelierten Hubbard Modell
suitable as
  • Bachelor’s Thesis Physics
Supervisor: Michael Knap
Emergente (nichtlineare) Hydrodynamik in Ultrakalten Quantengasen
Isolated quantum matter can thermalize locally because the surrounding system can act as a path. We will study how hydrodynamics can emerge at late times in such systems. The field of quantum dynamics is quickly evolving. Please contact me directly to discuss a concrete project.
suitable as
  • Master’s Thesis Condensed Matter Physics
Supervisor: Michael Knap
Emergent (non-linear) hydrodynamics in ultracold quantum gases
Isolated quantum matter can thermalize locally because the surrounding system can act as a path. We will study how hydrodynamics can emerge at late times in such systems. The field of quantum dynamics is quickly evolving. Please contact me directly to discuss a concrete project.
suitable as
  • Master’s Thesis Theoretical and Mathematical Physics
Supervisor: Michael Knap
Emergent (non-linear) hydrodynamics in ultracold quantum gases
Isolated quantum matter can thermalize locally because the surrounding system can act as a path. We will study how hydrodynamics can emerge at late times in such systems. The field of quantum dynamics is quickly evolving. Please contact me directly to discuss a concrete project.
suitable as
  • Master’s Thesis Quantum Science & Technology
Supervisor: Michael Knap
Fractonic quantum matter at low temperatures
Fractonic quantum matter possesses excitations with constrained mobility. In two dimensions, excitations can for example only move on one dimensional lines. The goal of this thesis is to study either with numerical or field theoretical techniques their ground state and dynamical properties. The field of fractions is quickly evolving. Please contact me directly to discuss a concrete project.
suitable as
  • Master’s Thesis Theoretical and Mathematical Physics
Supervisor: Michael Knap
Fractonic quantum matter at low temperatures
Fractonic quantum matter possesses excitations with constrained mobility. In two dimensions, excitations can for example only move on one dimensional lines. The goal of this thesis is to study either with numerical or field theoretical techniques their ground state and dynamical properties. The field of fractions is quickly evolving. Please contact me directly to discuss a concrete project.
suitable as
  • Master’s Thesis Condensed Matter Physics
Supervisor: Michael Knap
Fractonic quantum matter at low temperatures
Fractonic quantum matter possesses excitations with constrained mobility. In two dimensions, excitations can for example only move on one dimensional lines. The goal of this thesis is to study either with numerical or field theoretical techniques their ground state and dynamical properties. The field of fractions is quickly evolving. Please contact me directly to discuss a concrete project.
suitable as
  • Master’s Thesis Quantum Science & Technology
Supervisor: Michael Knap
Ungeordnete Quantensysteme: Vielteilchenlokalisierung

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
Vielteilchensysteme mit Zwangsbedingungen
suitable as
  • Bachelor’s Thesis Physics
Supervisor: Michael Knap
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