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Gravitation, and quantum theory, as emergent phenomena

Tejinder P. Singh

2023Journal of Physics Conference Series13 citationsDOIOpen Access PDF

Abstract

Abstract There must exist a reformulation of quantum field theory, even at low energies, which does not depend on classical time. The octonionic theory proposes such a reformulation, leading to a pre-quantum pre-spacetime theory. The ingredients for constructing such a theory, which is also a unification of the standard model with gravitation, are : (i) the pre-quantum theory of trace dynamics – a matrix-valued Lagrangian dynamics, (ii) the spectral action principle of non-commutative geometry, (iii) the number system known as the octonions, for constructing a non-commutative manifold and for defining elementary particles via Clifford algebras, (iv) a Lagrangian with E 8 × E 8 symmetry. The split bioctonions define a sixteen dimensional space (with left-right symmetry) whose geometry (evolving in Connes time) relates to the four known fundamental forces, while predicting two new forces, SU (3) grav and U (1) grav . This latter interaction is possibly the theoretical origin of MOND. Coupling constants of the standard model result from left-right symmetry breaking, and their values are theoretically determined by the characteristic equation of the exceptional Jordan algebra of the octonions. The quantum-to-classical transition, precipitated by the entanglement of a critical number of fermions, is responsible for the emergence of classical spacetime, and also for the familiar formulation of quantum theory on a spacetime background.

Topics & Concepts

SpacetimeGravitationPhysicsQuantum field theoryTheoretical physicsQuantum gravityQuantumMathematical physicsQuantum mechanicsAlgebraic and Geometric AnalysisQuantum Mechanics and ApplicationsNoncommutative and Quantum Gravity Theories
Gravitation, and quantum theory, as emergent phenomena | Litcius