Sonification of entanglement dynamics in many-qubit systems

TL;DR

This paper explores sonification techniques to audibly represent entanglement dynamics in many-qubit quantum systems, using phase space methods and entanglement measures to enhance understanding of quantum correlations.

Contribution

It introduces a novel sonification procedure for entanglement dynamics in many-qubit systems, combining phase space representations with auditory mapping.

Findings

Sonification improves perception of entanglement dynamics.

Auditory representations reveal behaviors in regular and chaotic quantum systems.

Method offers intuitive insights into quantum correlations.

Abstract

Quantum mechanics poses significant challenges for audio-visual representation, particularly concerning quantum entanglement. Sonification -- the auditory representation of data -- offers a promising complementary approach. This paper investigates sonification techniques applied to dynamical entanglement generation in many-qubit systems with the help of phase space methods and entanglement measure. We study dynamics of entanglement generation in many-qubit system in dynamical protocol governed by two models: the one-axis twisting model, and a quantum kicked-rotor exhibiting both regular and quantum chaotic behavior. We present a procedure of entanglement dynamics sonification, allowing mapping the phase-space representation of a many-qubit quantum state and von Neuman entanglement entropy to sound. Results demonstrate how sonification enhances perception of dynamic entanglement offering intuitive and artistic insight into quantum correlations behaviors.