Resumen
Combining elements of twistor-space, phase space, and Clifford algebras, we propose a framework for the construction and quantization of certain (quadric) varieties described by Lorentz-covariant multivector coordinates. The correspondent multivectors can be parametrized by second order polynomials in the phase space. Thus the multivectors play a double role, as covariant objects in D = 2, 3, 4 Mod 8 space-time dimensions and as mechanical observables of a non-relativistic system in 2[D/2]-1 Euclidean dimensions. The latter attribute permits a dual interpretation of concepts of non-relativistic mechanics as applying to relativistic space-time geometry. Introducing the Groenewold-Moyal-product and Wigner distributions in phase space induces Lorentz-covariant non-commutativity, and it provides the spectra of geometrical observables. We propose also new (multivector) matrix models, interpreted as descending from the interaction term of a Yang-Mills theory with minimally coupled massive fermions, in the large-N limit, which serves as a physical model containing the constructed multivector (fuzzy) geometries. We also include a section on speculative aspects on a possible cosmological effect and the origin of space-time entropy.
Idioma original | Inglés |
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Número de artículo | 062302 |
Publicación | Journal of Mathematical Physics |
Volumen | 59 |
N.º | 6 |
DOI | |
Estado | Publicada - 2018 |
Nota bibliográfica
Publisher Copyright:© 2018 Author(s).
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