OEMBSProject reference: 702612
Funded under :
Out-of-equilibrium entangled many-body systems
Total cost:EUR 168 277,2
EU contribution:EUR 168 277,2
Call for proposal:H2020-MSCA-IF-2015See other projects for this call
Funding scheme:MSCA-IF-EF-ST - Standard EF
The quest for a complete understanding of out-of-equilibrium behaviors in entangled many-body systems is a fundamental challenge in contemporary physics. In contrast with equilibrium, where several effective approaches (based on low-energy approximations) are available, there is no effective framework to describe out-of-equilibrium phenomena yet. One has then to rely only on numerical methods, such as the time-dependent Density Matrix Renormalization Group (tDMRG).
In this context, the goal of the project is to clarify fundamental aspects of out-of-equilibrium physics in strongly-entangled systems, both in one and in two dimensions. The proposed research pursues a very interdisciplinary approach, by combining state-of-the-art entanglement-based numerical tools, as well as exactly-solvable models. Specifically, in one dimension the project aims at developing a better numerical and analytical framework to: i) simulate the full out-of-equilibrium dynamics in integrable models, merging Monte Carlo and Bethe ansatz techniques; ii) understand the out-of-equilibrium behavior of many-body continuous systems, employing the framework of tensor network techniques (continuous matrix product states); iii) understand the interplay between disorder and integrability in many-body localized phases of matter. Finally, in two dimensions the aim of the project is to characterize the out-of-equilibrium signatures of topological order in quantum spin liquids, with special attention to the comparison with recent experimental results.
EU contribution: EUR 168 277,2
VIA BONOMEA 265