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Quantum Optimization for Maximum Independent Set Using Rydberg Atom Arrays

Quantum Physics 2018-09-03 v1 Quantum Gases Atomic Physics

Abstract

We describe and analyze an architecture for quantum optimization to solve maximum independent set (MIS) problems using neutral atom arrays trapped in optical tweezers. Optimizing independent sets is one of the paradigmatic, NP-hard problems in computer science. Our approach is based on coherent manipulation of atom arrays via the excitation into Rydberg atomic states. Specifically, we show that solutions of MIS problems can be efficiently encoded in the ground state of interacting atoms in 2D arrays by utilizing the Rydberg blockade mechanism. By studying the performance of leading classical algorithms, we identify parameter regimes, where computationally hard instances can be tested using near-term experimental systems. Practical implementations of both quantum annealing and variational quantum optimization algorithms beyond the adiabatic principle are discussed.

Keywords

Cite

@article{arxiv.1808.10816,
  title  = {Quantum Optimization for Maximum Independent Set Using Rydberg Atom Arrays},
  author = {Hannes Pichler and Sheng-Tao Wang and Leo Zhou and Soonwon Choi and Mikhail D. Lukin},
  journal= {arXiv preprint arXiv:1808.10816},
  year   = {2018}
}

Comments

6 pages+7 pages Supplementary Material

R2 v1 2026-06-23T03:50:50.023Z