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Programmable quantum simulations of spin systems with trapped ions

C. Monroe, Wesley C. Campbell, L.-M. Duan, Zhexuan Gong, Alexey V. Gorshkov, Paul Hess, Rajibul Islam, Kihwan Kim, Norbert M. Linke, Guido Pagano, Philip Richerme, Crystal Senko, Norman Y. Yao

2021Reviews of Modern Physics821 citationsDOIOpen Access PDF

Abstract

Trapped ions have always been among the leading contenders for the realization of a quantum computer. This review reports on progress in the use of these current-day quantum machines for the simulation of hard problems in spin dynamics of one-dimensional chain systems. Considerable acrobatics are needed to hide the real ion-spectroscopy physics and transform it into the quantum dynamics of the condensed matter system; this quantum computer is equally capable of simulating equilibrium spin physics and nonequilibrium dynamics. Prospects for scaling beyond 100 qubits are real, and the exploration of topological phases is on the horizon.

Topics & Concepts

PhysicsQuantum simulatorSpinsSpin (aerodynamics)Spin engineeringQuantumIonTrapped ion quantum computerQuantum sensorSpin statesAtomic physicsQuantum informationQuantum mechanicsDipoleOpen quantum systemCondensed matter physicsSpin polarizationElectronThermodynamicsQuantum Information and CryptographyNeural Networks and Reservoir ComputingQuantum Computing Algorithms and Architecture
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