Twisted Photons: New Quantum Perspectives in High Dimensions

TL;DR

This paper reviews recent advances in using high-dimensional quantum systems, especially orbital angular momentum states of photons, to expand quantum information processing beyond traditional qubits.

Contribution

It provides an overview of recent experimental developments and discusses the fundamental properties and potential applications of high-dimensional quantum systems in quantum information.

Findings

Recent experiments demonstrate manipulation of OAM states of photons

High-dimensional systems enable new quantum information protocols

Open questions for future research in quantum system complexity

Abstract

Quantum information science and quantum information technology have seen a virtual explosion world-wide. It is all based on the observation that fundamental quantum phenomena on the individual particle or system-level lead to completely novel ways of encoding, processing and transmitting information. Quantum mechanics, a child of the first third of the 20th century, has found numerous realizations and technical applications, much more than was thought at the beginning. Decades later, it became possible to do experiments with individual quantum particles and quantum systems. This was due to technological progress, and for light in particular, the development of the laser. Hitherto, nearly all experiments and also nearly all realizations in the fields have been performed with qubits, which are two-level quantum systems. We suggest that this limitation is again mainly a technological one, because it is very difficult to create, manipulate and measure more complex quantum systems. Here, we provide a specific overview of some recent developments with higher-dimensional quantum systems. We mainly focus on Orbital Angular Momentum (OAM) states of photons and possible applications in quantum information protocols. Such states form discrete higher-dimensional quantum systems, also called qudits. Specifically, we will first address the question what kind of new fundamental properties exist and the quantum information applications which are opened up by such novel systems. Then we give an overview of recent developments in the field by discussing several notable experiments over the past 2-3 years. Finally, we conclude with several important open questions which will be interesting for investigations in the future.