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Please use this identifier to cite or link to this item: https://libeldoc.bsuir.by/handle/123456789/52990
Title: Spin 2 Particle with Anomalous Magnetic Moment in Riemann Space-Time: A Massless Case with the Gauge Symmetry
Authors: Kisel, V. V.
Dudko, I. G.
Semenyuk, O. A.
Red’kov, V. M.
Keywords: публикации ученых;spin 2 particle;anomalous magnetic moment;electromagnetic field;Riemannian space-time;non-minimal interaction;massless limit;gauge symmetry
Issue Date: 2022
Publisher: Адукацыя і выхаванне
Citation: Spin 2 Particle with Anomalous Magnetic Moment in Riemann Space-Time: A Massless Case with the Gauge Symmetry / Kisel V. V. [et al.] // Nonlinear phenomena in complex systems. – 2022. – Vol. 25, № 2. – P. 286–296.
Abstract: The most of studies in the theory of spin 2 _field were performed with the use of the 2-nd order equations. The spin 2 particle theory proposed by F.I. Fedorov is based on the first order equations requires a 30-component set of tensors. Besides, by him and coauthors was elaborated a more general theory, which is based on 50-component set of tensors. In the present paper, we consider this more general theory in presence of arbitrary electromagnetic fields and Riemannian space-time backgrounds. First we study the 50-component theory for a massive particle. In this case, there arises the non-minimal interaction with the curved space-time background through the Ricci and Riemann tensors. It is important that the theory under consideration allows for a new massless limit for the spin 2 field. This fact is of special interest, because the conventional Pauli - Fierz theory for the massless field does not possess gauge symmetry in the curved space-time, in particular, in models with the vanishing Ricci tensor. We show that the generalized theory possesses such a gauge symmetry in all space-time models for which the Ricci tensor vanishes.
URI: https://libeldoc.bsuir.by/handle/123456789/52990
Appears in Collections:Публикации в изданиях Республики Беларусь

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