In this lecture, numerical tools for quantum many-body physics will be theoretically discussed and practically applied. We will cover mean-field theory, exact diagonalization, tensor network methods such as DMRG, and quantum Monte Carlo methods. The successful participant will be guided with accompanying exercises towards developing own source codes for solving basic quantum many-body problems using the aforementioned methods.
data set up-to-date
Scope:
lecture: 3 hours/week tutorials: 1 hours/week
Time/location:
DI(5) SE2/102, MI(5) ugW. SE2/201
Tutorials:
Group
Time/location:
MI(5) gW SE2/201
Audience:
Vertiefung Bachelor (PV) und Master (alle)
Specialization area:
Theoretische Physik (Vorlesung im Wahlpflichtvertiefungsgebiet, masterartig)
Previous knowledge:
Quantum Theory I+II, Computational Physics or at least basic programming skills, basic Condensed Matter Physics