A Brief Introduction to Quantum Network Control

TL;DR

This paper introduces quantum network control, focusing on algorithms for entanglement distribution in quantum networks, and discusses key operations, models, and open research challenges in the field.

Contribution

It provides a foundational overview of quantum network control, including models and open problems, for designing entanglement distribution algorithms.

Findings

Model for entanglement distribution in multi-hop networks

Explanation of quantum operations like swapping and teleportation

Identification of open research problems such as capacity characterization

Abstract

Quantum networking is an emerging area with the potential to transform information processing and communications. In this paper, we present a brief introduction to quantum network control, an area in quantum networking dedicated to designing algorithms for distributing entanglement (i.e., entangled qubits). We start by explaining what qubits and entanglement are and how they furnish quantum network control operations such as entanglement swapping and teleportation. With those operations, we present a model for distributing entanglement in a multi-hop quantum network to enable applications such as quantum key distribution and distributed quantum computing. We conclude the paper by presenting open research problems in the field, including the characterization of the quantum network capacity region and the design of throughput-optimal policies.