Programmable large-scale simulation of bosonic transport in optical
synthetic frequency lattices
- URL: http://arxiv.org/abs/2208.05088v1
- Date: Wed, 10 Aug 2022 00:23:27 GMT
- Title: Programmable large-scale simulation of bosonic transport in optical
synthetic frequency lattices
- Authors: Alen Senanian, Logan G. Wright, Peter F. Wade, Hannah K. Doyle, Peter
L. McMahon
- Abstract summary: Photonic simulators have enabled flexible experimental analogues of condensed-matter systems.
We present an analog simulator capable of simulating large 2D and 3D lattices, as well as lattices with non-planar connectivity.
- Score: 1.5257247496416746
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Photonic simulators using synthetic frequency dimensions have enabled
flexible experimental analogues of condensed-matter systems, realizing
phenomena that are impractical to observe in real-space systems. However, to
date such photonic simulators have been limited to small systems suffering from
finite-size effects. Here, we present an analog simulator capable of simulating
large 2D and 3D lattices, as well as lattices with non-planar connectivity,
including a tree lattice that serves as a toy model in quantum gravity. Our
demonstration is enabled by the broad bandwidth achievable in photonics,
allowing our simulator to realize lattices with over 100,000 lattice sites. We
explore these large lattices in a wide range of previously inaccessible regimes
by using a novel method to excite arbitrary states. Our work establishes the
scalability and flexibility of programmable simulators based on synthetic
frequency dimensions in the optical domain. We anticipate that future
extensions of this platform will leverage advances in high-bandwidth
optoelectronics to support simulations of dynamic, non-equilibrium phases at
the scale of millions of lattice sites, and Kerr-frequency-comb technology to
simulate models with higher-order interactions, ultimately in regimes and at
scales inaccessible to both digital computers and realizable materials.
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