The Sound of Entanglement
Abstract
The advent of quantum physics has revolutionized our understanding of the universe, replacing the deterministic framework of classical physics with a paradigm dominated by intrinsic randomness and quantum correlations. This shift has not only enabled groundbreaking technologies, such as quantum sensors, networks and computers, but has also unlocked entirely new possibilities for artistic expressions. In this paper, we explore the intersection of quantum mechanics and art, focusing on the use of quantum entanglement and inherent randomness as creative tools. Specifically, we present The Sound of Entanglement, a live musical performance driven by real-time measurements of entangled photons in a Bell test. By integrating the measured quantum correlations as a central compositional element and synchronizing live visuals with experimental data, the performance offers a unique and unrepeatable audiovisual experience that relies on quantum correlations which cannot be produced by any classical device. Through this fusion of science and art, we aim to provide a deeper appreciation of quantum phenomena while expanding the boundaries of creative expression.