Generalized quantum phase spaces for the κ-deformed extended Snyder model
Peer reviewed, Journal article
Published version
Permanent lenke
https://hdl.handle.net/11250/3069928Utgivelsesdato
2023Metadata
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Originalversjon
Lukierski, J., Meljanac, S., Mignemi, S. & Pachoł, A. (2023). Generalized quantum phase spaces for the κ-deformed extended Snyder model. Physics Letters B, 838, Artikkel 137709. https://doi.org/10.1016/j.physletb.2023.137709Sammendrag
We describe, in an algebraic way, the κ-deformed extended Snyder models, that depend on three parameters β, κ and λ, which in a suitable algebra basis are described by the de Sitter algebras o(1, N). The commutation relations of the algebra contain a parameter λ, which is used for the calculations of perturbative expansions. For such κ-deformed extended Snyder models we consider the Heisenberg double with dual generalized momenta sector, and provide the respective generalized quantum phase space depending on three parameters mentioned above. Further, we study for these models an alternative Heisenberg double, with the algebra of functions on de Sitter group. In both cases we calculate the formulae for the cross commutation relations between generalized coordinate and momenta sectors, at linear order in λ. We demonstrate that in the commutators of quantum space-time coordinates and momenta of the quantum-deformed Heisenberg algebra the terms generated by κ-deformation are dominating over β-dependent ones for small values of λ.