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Main Author: Bradford, Richard A. W.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.19708
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author Bradford, Richard A. W.
author_facet Bradford, Richard A. W.
contents Because of the importance of unitarity in quantum physics, work on the representations of the de Sitter group has focussed on the unitary case, which necessarily means infinite dimensional matrices for this non-compact group. Here we address the finite dimensional representations resulting from the requirement that the Lie algebra generators are either Hermitian or anti-Hermitian. The complete classification of all such irreducible representations is found and their matrix elements specified. These irreducible representations (irreps) are based on backbones defined as the homogeneous Lorentz sub-algebra and consisting of direct sums of the finite irreps of the homogeneous Lorentz algebra (HLA). All these irreps have been characterised by a diagrammatic depiction conveniently labelled by two positive integers m/n where m,n lie in (1,2,3,..) excepting only m=n=1. The two Casimir invariants have been given explicitly in terms of the two positive integers, m and n, equations (11.11a,b), and shown to reproduce the result familiar from the study of the infinite dimensional, unitary representations -C1=p(p+1)+(q+1)(q-2) and -C2=p(p+1)q(q-1) but with a reduced set of possible p,q values. There are 17 irreps with dimensions less than 105, having dimensions 4, 5, 10, 14, 16, 20, 30, 35(x2), 40, 55, 56, 64, 80, 81, 84 and 91. The corresponding irreps of the anti-de Sitter group follow immediately from the replacement of the 4-momentum operators Vμ by iVμ.
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spellingShingle All Finite (Anti)Hermitian Irreducible Representations of the de Sitter and Anti-de Sitter Lie Algebras and Their Lorentz Structure
Bradford, Richard A. W.
Group Theory
Mathematical Physics
22E45
Because of the importance of unitarity in quantum physics, work on the representations of the de Sitter group has focussed on the unitary case, which necessarily means infinite dimensional matrices for this non-compact group. Here we address the finite dimensional representations resulting from the requirement that the Lie algebra generators are either Hermitian or anti-Hermitian. The complete classification of all such irreducible representations is found and their matrix elements specified. These irreducible representations (irreps) are based on backbones defined as the homogeneous Lorentz sub-algebra and consisting of direct sums of the finite irreps of the homogeneous Lorentz algebra (HLA). All these irreps have been characterised by a diagrammatic depiction conveniently labelled by two positive integers m/n where m,n lie in (1,2,3,..) excepting only m=n=1. The two Casimir invariants have been given explicitly in terms of the two positive integers, m and n, equations (11.11a,b), and shown to reproduce the result familiar from the study of the infinite dimensional, unitary representations -C1=p(p+1)+(q+1)(q-2) and -C2=p(p+1)q(q-1) but with a reduced set of possible p,q values. There are 17 irreps with dimensions less than 105, having dimensions 4, 5, 10, 14, 16, 20, 30, 35(x2), 40, 55, 56, 64, 80, 81, 84 and 91. The corresponding irreps of the anti-de Sitter group follow immediately from the replacement of the 4-momentum operators Vμ by iVμ.
title All Finite (Anti)Hermitian Irreducible Representations of the de Sitter and Anti-de Sitter Lie Algebras and Their Lorentz Structure
topic Group Theory
Mathematical Physics
22E45
url https://arxiv.org/abs/2412.19708