"Discovering hydrodynamic equations of many-body quantum systems", arXiv:2111.02385
Framework for data-driven discovery of PDEs in many-body quantum systems from real-time dynamics
In this project we develop a new machine-learning framework for automated discovery of effective equations describing dynamics of many-body quantum systems, thus bypassing complicated analytical derivations. Using integrable models, where direct comparisons can be made, we reproduce previously known hydrodynamic equations, strikingly discover novel equations.
- Single magnon dynamics in 1D XXZ model
- Domain wall evolution in XXZ model (zero temperature and infinite temperature limits)
- Free fermion dynamics in a tight-binding J1-J2 model
- Interacting fermions dynamics in a spinless Fermi-Hubbard model
- Experimental data analysis: expansion of interacting boson gas on atom chip
@article{kharkov2021discovering,
title={Discovering hydrodynamic equations of many-body quantum systems},
author={Kharkov, Yaroslav and Shtanko, Oles and Seif, Alireza and Bienias, Przemyslaw and Van Regemortel, Mathias and Hafezi, Mohammad and Gorshkov, Alexey V},
journal={arXiv preprint arXiv:2111.02385},
year={2021}
}