Dynamical localization simulated on actual quantum hardware

TL;DR

This paper demonstrates that dynamical localization of the quantum sawtooth map can be simulated on small-scale quantum hardware, showcasing the potential of quantum computers to study complex quantum phenomena and evaluate hardware performance.

Contribution

First experimental simulation of dynamical localization on real quantum hardware, highlighting its use for testing and advancing quantum computing capabilities.

Findings

Successful simulation of dynamical localization on quantum processors

Quantum hardware can reproduce sensitive quantum phenomena

Potential for using such simulations to assess hardware performance

Abstract

Quantum computers are invaluable tools to explore the properties of complex quantum systems. We show that dynamical localization of the quantum sawtooth map, a highly sensitive quantum coherent phenomenon, can be simulated on actual, small-scale quantum processors. Our results demonstrate that quantum computing of dynamical localization may become a convenient tool for evaluating advances in quantum hardware performances.