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Pré-Publication, Document De Travail (Working Paper) Année : 2023

Decomposition of State Spaces into Subobjects in Quantum Field Theory

Pierre Gosselin
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Résumé

This paper introduces a comprehensive formalism for decomposing the state space of a quantum field into several entangled subobjects, i.e., fields generating a subspace of states. Projecting some of the subobjects onto degenerate background states reduces the system to an effective field theory depending on parameters representing the degeneracies. Notably, these parameters are not exogenous. The entanglement among subobjects in the initial system manifests as an interrelation between parameters and non-projected subobjects. Untangling this dependency necessitates imposing linear first-order equations on the effective field. The geometric characteristics of the parameter spaces depend on both the effective field and the background of the projected subobjects. The system, governed by arbitrary variables, has no dynamics, but the projection of some subobjects can be interpreted as slicing the original state space according to the lowest eigenvalues of a parameter-dependent family of operators. The slices can be endowed with amplitudes similar to some transitions between each other, contingent upon these eigenvalues. Averaging over all possible transitions shows that the amplitudes are higher for maps with increased eigenvalue than for maps with decreasing eigenvalue.
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Dates et versions

hal-04363700 , version 1 (26-12-2023)
hal-04363700 , version 2 (04-01-2024)

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Pierre Gosselin. Decomposition of State Spaces into Subobjects in Quantum Field Theory. 2023. ⟨hal-04363700v2⟩
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