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How can discrete pitches and chords emerge from the continuum of sound? Using a quantum cognition model of tonal music, we prove that the associated Schrödinger equation in Fourier space is invariant under continuous pitch transpositions. However, this symmetry is broken in the case of transpositions of chords, entailing a discrete cyclic group as transposition symmetry. Our research relates quantum mechanics with music and is consistent with music theory and seminal insights by Hermann von Helmholtz.

beim Graben P., Mannone M. (2020). Musical pitch quantization as an eigenvalue problem. JOURNAL OF MATHEMATICS & MUSIC, 14(3), 329-346 [10.1080/17459737.2020.1763488].

Musical pitch quantization as an eigenvalue problem

Mannone M.
2020-09-01

Abstract

How can discrete pitches and chords emerge from the continuum of sound? Using a quantum cognition model of tonal music, we prove that the associated Schrödinger equation in Fourier space is invariant under continuous pitch transpositions. However, this symmetry is broken in the case of transpositions of chords, entailing a discrete cyclic group as transposition symmetry. Our research relates quantum mechanics with music and is consistent with music theory and seminal insights by Hermann von Helmholtz.
set-2020
JOURNAL OF MATHEMATICS & MUSIC
https://dx.doi.org/10.1080/17459737.2020.1763488
beim Graben P., Mannone M. (2020). Musical pitch quantization as an eigenvalue problem. JOURNAL OF MATHEMATICS & MUSIC, 14(3), 329-346 [10.1080/17459737.2020.1763488].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/570167
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