Quantum Communication Using Semiconductor Quantum Dots

TL;DR

This review discusses advances in quantum communication using semiconductor quantum dots, highlighting their role in generating quantum light sources for secure communication and outlining future challenges and prospects.

Contribution

It provides a comprehensive overview of quantum-dot-based quantum light sources and their application in quantum cryptography and communication networks.

Findings

Progress in on-demand quantum light sources from quantum dots

Experimental demonstrations of quantum cryptography protocols

Advances towards quantum-secured communication networks

Abstract

Worldwide enormous efforts are directed towards the development of the so-called quantum internet. Turning this long sought-after dream into reality is a great challenge that will require breakthroughs in quantum communication and computing. To establish a global, quantum-secured communication infrastructure, photonic quantum technologies will doubtlessly play a major role, by providing and interfacing essential quantum resources, e.g., flying- and stationary qubits or quantum memories. Over the last decade, significant progress has been made in the engineering of on-demand quantum light sources based on semiconductor quantum dots, which enable the generation of close-to-ideal single- and entangled-photon states, useful for quantum cryptography tasks. This review focuses on implementations of, and building blocks for, quantum communication using quantum-light sources based on epitaxial semiconductor quantum dots. After reviewing the main notions of quantum cryptography (section 1) and introducing the devices used for single-photon and entangled-photon generation (section 2), it provides an overview of experimental implementations of cryptographic protocols using quantum dot based quantum light sources (section 3). Furthermore, recent progress towards quantum-secured communication networks as well as building blocks thereof is summarized (section 4). The article closes with an outlook, discussing future perspectives in the field and identifying the main challenges to be solved.