English

Quantum walks and Dirac cellular automata on a programmable trapped-ion quantum computer

Quantum Physics 2020-08-28 v1

Abstract

The quantum walk formalism is a widely used and highly successful framework for modeling quantum systems, such as simulations of the Dirac equation, different dynamics in both the low and high energy regime, and for developing a wide range of quantum algorithms. Here we present the circuit-based implementation of a discrete-time quantum walk in position space on a five-qubit trapped-ion quantum processor. We encode the space of walker positions in particular multi-qubit states and program the system to operate with different quantum walk parameters, experimentally realizing a Dirac cellular automaton with tunable mass parameter. The quantum walk circuits and position state mapping scale favorably to a larger model and physical systems, allowing the implementation of any algorithm based on discrete-time quantum walks algorithm and the dynamics associated with the discretized version of the Dirac equation.

Keywords

Cite

@article{arxiv.2002.02537,
  title  = {Quantum walks and Dirac cellular automata on a programmable trapped-ion quantum computer},
  author = {C. Huerta Alderete and Shivani Singh and Nhung H. Nguyen and Daiwei Zhu and Radhakrishnan Balu and Christopher Monroe and C. M. Chandrashekar and Norbert M. Linke},
  journal= {arXiv preprint arXiv:2002.02537},
  year   = {2020}
}

Comments

8 pages, 6 figures

R2 v1 2026-06-23T13:33:40.500Z