The CRC initiative NuMeriQS brings together scientists from the fields of theoretical particle, nuclear, and condensed matter physics as well as theoretical chemistry on the one hand with mathematicians and computer scientists on the other hand in a truly interdisciplinary effort to improve our understanding of the structure and dynamics in quantum systems. NuMeriQS aims to leverage the sophisticated numerical methods developed separately in physics and chemistry by confronting them with the state of the art in numerical mathematics and computer science to tackle the central challenges all fields investigating complex quantum systems face. The initiative comes at a time where potentially transformative technologies become available, like the first exascale computing installations, or promise to become available, like digital quantum computers.

DFG Programme Collaborative Research Centres

• A01 - Modern Monte Carlo Approaches with Machine Learning Potentials for Material Science Applications (Project Heads Griebel, Michael ;  Kirchner, Barbara ;  Urbach, Carsten )
• A02 - Automatic Generation of Highly Optimized Computer Code for Complex Many-Body Algorithms on High-Performance Computing Platforms (Project Head Neese, Frank )
• A03 - Uncertainty Quantification in Computational Chemistry (Project Heads Dölz, Jürgen ;  Kirchner, Barbara )
• A04 - Optimising the Real-Time Evolution of Quantum Spin Chains with Higher-Order Trotter Techniques (Project Head Ostmeyer, Johann )
• A05 - Integrating HPC-simulations with Data-Analysis for Structure Formation in Chemistry (Project Heads Kirchner, Barbara ;  Mutzel, Petra ;  Suarez, Estela )
• A06 - Nonequilibrium eigenstates of Periodically Driven Quantum Many-Body Systems (Project Heads Kollath, Corinna ;  Luitz, David )
• B01 - Quasi-Particle Dynamics in Low-Dimensional Topological Systems (Project Heads Luu, Ph.D., Thomas ;  Meißner, Ulf-G. )
• B02 - Towards Lattice Field Theory at the Exascale Frontier (Project Heads Kostrzewa, Bartosz ;  Krieg, Stefan ;  Suarez, Estela )
• B03 - Higher Order Numerical Quadrature for High-Dimensional Integration Problems in Lattice Field Theory (Project Head Griebel, Michael )
• B04 - Precise Perturbative Computations from Quadrature Rules (Project Heads Duhr, Claude ;  Dölz, Jürgen )
• B05 - A Novel Approach to the Baryon Spectrum Based on Stochastic Methods (Project Heads Meißner, Ulf-G. ;  Rönchen, Deborah )
• B06 - Multi-Level Iterative Solvers for Lattice Dirac Operators (Project Heads Krieg, Stefan ;  Schweitzer, Marc Alexander )
• C01 - Lattice Gauge Theories: Combining Lagrangian and Hamiltonian Approaches (Project Heads Funcke, Lena ;  Urbach, Carsten )
• C02 - Hybrid Approaches to Quantum Many-Body Systems (Project Heads Luitz, David ;  Luu, Ph.D., Thomas ;  Neese, Frank ;  Urbach, Carsten )
• C03 - Circumventing the Sign Problem in Lattice Gauge Theories with Topological Terms (Project Head Funcke, Lena )
• Z01 - Administration (Project Head Urbach, Carsten )
• Z02 - Central Supercomputing, Codesign and Performance Optimisation Support (Project Heads Kostrzewa, Bartosz ;  Suarez, Estela )

Applicant Institution Rheinische Friedrich-Wilhelms-Universität Bonn

Participating Institution Forschungszentrum Jülich; Max-Planck-Institut für Kohlenforschung

Spokesperson Professor Dr. Carsten Urbach