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arxiv: 2012.10248 · v1 · pith:SYWCPA32new · submitted 2020-12-18 · 🌀 gr-qc · hep-th· math-ph· math.MP

Space, Matter and Interactions in a Quantum Early Universe. Part II : Superalgebras and Vertex Algebras

classification 🌀 gr-qc hep-thmath-phmath.MP
keywords mathfrakmathsftextbfalgebraintroducequantumscatteringaction
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In our investigation on quantum gravity, we introduce an infinite dimensional complex Lie algebra $\textbf{${\mathfrak g}_{\mathsf u}$}$ that extends $\mathbf{e_9}$. It is defined through a symmetric Cartan matrix of a rank 12 Borcherds algebra. We turn $\textbf{${\mathfrak g}_{\mathsf u}$}$ into a Lie superalgebra $\textbf{$\mathfrak {sg}_{\mathsf u}$}$ with no superpartners, in order to comply with the Pauli exclusion principle. There is a natural action of the Poincar\'e group on $\textbf{$\mathfrak {sg}_{\mathsf u}$}$, which is an automorphism in the massive sector. We introduce a mechanism for scattering that includes decays as particular {\it resonant scattering}. Finally, we complete the model by merging the local $\textbf{$\mathfrak {sg}_{\mathsf u}$}$ into a vertex-type algebra.

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