Continuous Variable Quantum Information Processing

TL;DR

This paper reviews the fundamental principles and recent advances in continuous variable quantum information processing, covering encoding, manipulation, and measurement of quantum information using continuous degrees of freedom.

Contribution

It provides a comprehensive overview of CV quantum information processing, highlighting recent developments across preparation, processing, and detection stages.

Findings

Summarizes key principles of CV quantum information.

Highlights recent experimental and theoretical advances.

Discusses techniques like homodyne detection and photon counting.

Abstract

Observables of quantum systems can posses either a discrete or a continuous spectrum. For example, upon measurements of the photon number of a light state, discrete outcomes will result whereas measurements of the light's quadrature amplitudes result in continuous outcomes. If one uses the continuous degree of freedom of a quantum system either for encoding, processing or detecting information, one enters the field of continuous variable (CV) quantum information processing. In this paper we review the basic principles of CV quantum information processing with main focus on recent developments in the field. We will be addressing the three main stages of a quantum informational system; the preparation stage where quantum information is encoded into CVs of coherent states and single photon states, the processing stage where CV information is manipulated to carry out a specified protocol and a detection stage where CV information is measured using homodyne detection or photon counting.