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Gauge models of musical forces

Reinhard Blutner, Peter beim Graben

2020Journal of Mathematics and Music20 citationsDOIOpen Access PDF

Abstract

Metaphors involving motion and forces are a source of inspiration for understanding tonal music and tonal harmonies since ancient times. Starting with the rise of quantum cognition, the modern interactional conception of forces as developed in gauge theory has recently entered the field of theoretical musicology. We develop a gauge model of tonal attraction based on SU(2) symmetry. This model comprises two earlier attempts, the phase model grounded on U(1) gauge symmetry, and the spatial deformation model derived from SO(2) gauge symmetry. In the neutral, force-free case both submodels agree and generate the same predictions as a simple qubit approach. However, there are several differences in the force-driven case. It is claimed that the deformation model gives a proper description of static tonal attraction. The full model combines the deformation model with the phase model through SU(2) gauge symmetry and unifies static and dynamic tonal attraction.

Topics & Concepts

Symmetry (geometry)Theoretical physicsGauge theoryPhysicsIntroduction to gauge theoryGauge (firearms)Gauge symmetryClassical mechanicsHarmony (Music)Quantum mechanicsMathematicsMusicalGeometryArchaeologyVisual artsHistoryArtNeuroscience and Music PerceptionMusic Technology and Sound StudiesMusic and Audio Processing
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