This repository contains supporting simulations for the paper "Programmable photonic system for quantum simulation in arbitrary topologies". In this work, we describe a programmable photonic de- vice capable of emulating the dynamics of a broad class of Hamiltonians in lattices with arbitrary topologies and dimensions. We derive a correspondence between the physics of the device and the Hamiltonians of interest, and we simulate the physics of the device to observe a wide variety of phys- ical phenomena, including chiral states in a Hall ladder, effective gauge potentials, and oscillations in high-dimensional lattices. Our proposed device opens new possibilities for studying topological and many-body physics in near-term experimental platforms.
Python >3.6qutip >4.6tqdmnumpyscipymatplotlib
If you found this paper or supplementary code useful, please cite us using:
@article{Bartlett2022Programmable,
title={Programmable photonic system for quantum simulation in arbitrary topologies},
author={Ben Bartlett and Olivia Y. Long and Avik Dutt and Shanhui Fan},
year={2022},
eprint={2211.09805},
archivePrefix={arXiv},
primaryClass={quant-ph}
}