Teleportation based on control of anisotropic Ising interaction in three dimensions

TL;DR

This paper explores how anisotropic Ising interactions controlled by magnetic pulses can be used to implement quantum teleportation in three-dimensional systems, aiming to enhance the flexibility and robustness of quantum information transfer.

Contribution

It introduces a novel method for quantum teleportation using anisotropic Ising interactions driven by magnetic pulses, tailored for magnetic quantum systems.

Findings

Design of specialized quantum gates for magnetic systems

Demonstration of teleportation protocol using anisotropic Ising interactions

Potential for improved control in matter-based quantum teleportation

Abstract

Possibly, teleportation is the most representative quantum algorithm in the public domain. Nevertheless than this quantum procedure transmits only information than objects, its coverage is still very limited and easily subject to errors. Based on a fine control of quantum resources, particularly those entangled, the research to extend its coverage and flexibility is open, in particular on matter based quantum systems. This work shows how anisotropic Ising interactions could be used as natural basis for this procedure, based on a sequence of magnetic pulses driving Ising interaction, stating results in specialized quantum gates designed for magnetic systems.