Quantum Simulating Scalar Electrodynamics with Configurable Rydberg Atoms Arrays
ORAL
Abstract
We present a quantum Hamiltonian for scalar electrodynamics in one and two spatial dimensions where the electric field Hilbert space is approximated by a spin-1 triplet. We propose two different quantum simulators for this model obtained by assembling arrays of Rydberg atoms with ladder structures.
Using numerical methods, we compare observables associated with the real-time evolution and the phase diagram for the simulators and the target model. We discuss the progress of the experimental implementations at the time of the meeting.
Using numerical methods, we compare observables associated with the real-time evolution and the phase diagram for the simulators and the target model. We discuss the progress of the experimental implementations at the time of the meeting.
–
Publication: arXiv:2107.11366
Presenters
-
Yannick L Meurice
University of Iowa
Authors
-
Yannick L Meurice
University of Iowa
-
Jin Zhang
University of Iowa
-
Shan-Wen Tsai
University of California, Riverside
-
Alexander Keesling
QuEra Computing Inc, QuEra
-
James Corona
University of Iowa
-
Fangli Liu
QuEra
-
Shengtao Wang
QuEra Computing Inc, QuEra
-
Tout T Wang
Harvard University
-
Mikhail Lukin
Harvard University
-
Nathan Gemelke
QuEra