Long-Range Quantum Magnetism in Atom-Nanophotonic Hybrid Lattices
Abstract
The research program aims at utilizing ultracold atoms trapped near the surface of nanophotonics to emulate long-range quantum magnetism with photon mediated spin-spin interactions. We explore deterministic loading of an array of ultracold atoms near the surface of high quality nanophotonic resonators to achieve strong, dispersive atom-light interactions with high single-atom cooperativity parameter (C>100). We explore atom-photon coupling on a fabricated microring structure, with the goal to realize rudimentary pairwise-tunable spin interactions between two trapped atomic pseudospins. The ultimate goal of this research program is to enable direct explorations of a remarkable range of quantum spin models beyond conventional condensed matter settings to provide valuable insights for the universal quantum dynamics in long-range many-body systems.
Document Details
- Document Type
- Technical Report
- Publication Date
- Nov 17, 2021
- Accession Number
- AD1230779
Entities
People
- Hung Chen-lung
Organizations
- Purdue University