Demonstration of a Quantum Graph Coloring Game on a Trapped Ion Quantum Computer

Anton T Than; Jim Furches; Nathan Wiebe; Carlos O Marrero; Norbert M Linke

Demonstration of a Quantum Graph Coloring Game on a Trapped Ion Quantum Computer

ORAL

Abstract

In a graph coloring game, two players color vertices of a graph such that adjacent vertices are not given the same color. In the quantum version, the two players share an entangled state and pick colors by measuring their subspace in different bases. We demonstrate a quantum graph coloring game on a trapped ion computer with a graph where the optimal quantum strategy outperforms all classical strategies. We run 88 four-qubit circuits to obtain an experimental win rate of the optimal quantum strategy and compare with the theoretical quantum and classical win rate.

June 4, 2024, 2:24 PM – June 4, 2024, 2:36 PM

Presenters

Anton T Than

University of Maryland, College Park

Authors

Anton T Than

University of Maryland, College Park
Jim Furches

Virginia Tech
Nathan Wiebe

University of Toronto
Carlos O Marrero

Pacific Northwest National Laboratory
Norbert M Linke

Department of Physics, Duke University, Durham, North Carolina, U.S.A, Duke University, Department of Physics, Duke University, U.S.A.