Department of Mathematics and Computer Science/

CRC 1114 Scaling Cascades in Complex Systems

Research

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Research Areas and Projects

Research Areas - 2nd funding phase (2018 - 2022)

A01 - Coupling a multiscale stochastic precipitation model to large scale atmospheric flow dynamics

A02 - Multiscale data and asymptotic model assimilation for atmospheric flows

A04 - Efficient calculation of slow and stationary scales in molecular dynamics

A05 - Probing scales in equilibrated systems by optimal nonequilibrium forcing

A07 - Langevin dynamics of particles in membranes

B01 - Fault networks and scaling properties of deformation accumulation

B03 - Multilevel coarse graining of multiscale problems

B05 - Origin of scaling cascades in protein dynamics

B06 - Data-driven and tensor-based analysis of multiscale systems

B07 - Selfsimilar structures in turbulent flows and the construction of LES closures

C01 - Adaptive coupling of scales in molecular dynamics and beyond to fluid dynamics

C02 - Interface dynamics: Bridging stochastic and hydrodynamic descriptions

C03 - Multiscale modelling and simulation for spatiotemporal master equations

C05 - Effective models for materials and interfaces with multiple scales

C06 - Multiscale structure of atmospheric vortices

C08 - Stochastic spatial coagulation particle processes

C09 - Dynamics of rock dehydration on multiple scales

A01 - Coupling a multiscale stochastic precipitation model to large scale atmospheric flow dynamics

A02 - Multiscale data and asymptotic model assimilation for atmospheric flows

A04 - Efficient calculation of slow and stationary scales in molecular dynamics

A05 - Probing scales in equilibrated systems by optimal nonequilibrium forcing

A07 - Langevin dynamics of particles in membranes

A08 - Characterization and prediction of quasi-stationary atmospheric states

B03 - Multilevel coarse graining of multiscale problems

B05 - Origin of scaling cascades in protein dynamics

B06 - Data-driven and tensor-based analysis of multiscale systems

B07 - Selfsimilar structures in turbulent flows and the construction of LES closures

B08 - Multiscale Boltzmann Generators

B09 - Materials with discontinuities on many scales

C01 - Adaptive coupling of scales in molecular dynamics and beyond to fluid dynamics

C02 - Interface dynamics: Bridging stochastic and hydrodynamic descriptions

C03 - Multiscale modelling and simulation for spatiotemporal master equations

C05 - Effective models for materials and interfaces with multiple scales

C06 - Multiscale structure of atmospheric vortices

C08 - Stochastic spatial coagulation particle processes

C09 - Dynamics of rock dehydration on multiple scales

C10 - Numerical analysis for nonlinear SPDE models of particle systems

Research Areas - 1st funding phase (2014 - 2018)

A01 - Coupling a multiscale stochastic precipitation model to large scale atmospheric flow dynamics

A02 - Multiscale data and asymptotic model assimilation for atmospheric flows

A04 - Efficient calculation of slow and stationary scales in molecular dynamics

A05 - Probing scales in equilibrated systems by optimal nonequilibrium forcing

A06 - Enabling Bayesian uncertainty quantification for multiscale systems and network models via mutual likelihood-informed dimension reduction

B01 - Fault networks and scaling properties of deformation accumulation

B02 - Polymer dynamic theories, Markov state models and protein folding free energy landscapes

B03 - Multilevel coarse graining of multiscale problems

B04 - Multiscale tensor decomposition methods for partial differential equations

B05 - Origin of the scaling cascades in protein dynamics

C01 - Adaptive coupling of scales in molecular dynamics and beyond to fluid dynamics

C02 - Water diffusion at biological molecules and interfaces: Bridging stochastic and hydrodynamic descriptions

C03 - Multiscale modelling and simulation for spatiotemporal master equations

C05 - Effective models for interfaces with many scales

C06 - Multi-scale structure of atmospheric vortices

C08 - Stochastic spatial coagulation particle processes

AP01 - Particles in lipid bilayers

Mercator Fellow

Einstein Visiting Fellows