The κ-(A)dS noncommutative spacetime

Ballesteros, Ángel; Gutiérrez-Sagredo, Iván; Herranz, Francisco J.

doi:10.1016/j.physletb.2019.07.038

Cited by 31 publications

(54 citation statements)

References 58 publications

(132 reference statements)

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“…For this reason, we extend our previous study of the Snyder scalar QFT to the case of a de Sitter background. Some other approaches to noncommutative curved spaces can be found in [13][14][15], where the authors motivate their mathematical construction from Poisson-Lie algebras, and [16,17], where a grouprepresentation approach is used and some astrophysical consequences are discussed.…”

Section: Introductionmentioning

confidence: 99%

Asymptotic freedom for $$\lambda \phi ^4_{\star }$$ QFT in Snyder–de Sitter space

Franchino-Viñas

Mignemi

2020

Eur. Phys. J. C

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We analyze the model of a self-interacting $$\phi ^4_{\star }$$ϕ⋆4 scalar field theory in Snyder–de Sitter space. After analytically computing the one-loop beta functions in the small noncommutativity and curvature limit, we solve numerically the corresponding system of differential equations, showing that in this limit the model possesses at least one regime in which the theory is asymptotically free. Moreover, in a given region of the parameter space we also observe a peculiar running of the parameter associated to the curvature, which changes its sign and therefore can be interpreted as a transition from an IR de-Sitter space to and UV anti-de Sitter one.

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Section: Introductionmentioning

confidence: 99%

Asymptotic freedom for $$\lambda \phi ^4_{\star }$$ QFT in Snyder–de Sitter space

Franchino-Viñas

Mignemi

2020

Eur. Phys. J. C

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“…As a matter of fact, this procedure presents some similarities with some of the most appealing approaches that demonstrated corrections on the black hole thermodynamics driven by modified dispersion relations [50] (besides generalized uncertainty principles). In that case, a generalized Stephan-Boltzmann law is calculated considering approximated MDRs, similarly to our calculations of the energy density in the denominator of the equation of state parameter (14) or (15). And the temperature of this radiation fluid is also identified with the temperature assigned to the back hole.…”

Section: Third Casementioning

confidence: 99%

“…An appealing way to connect this approach to actual astrophysical observations consists in promoting such deformed flat metrics to deformed curved ones, in order to manifest the gravitational field degrees of freedom. There exist some proposals that promote the κ-Poincaré algebra to a curved setup (see [15] and references therein), some that explore curved Finsler and Hamilton geometries [16][17][18], disformal transformations on a metric [19], among others. In this paper we shall focus on the simplest and most fruitful of these proposals, called rainbow gravity (RG) [21].…”

Section: Introductionmentioning

confidence: 99%

Effects of Planck-scale-modified dispersion relations on the thermodynamics of charged black holes

et al. 2020

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Considering corrections produced by modified dispersion relations on the equation of state parameter of radiation, we study the induced the black hole metric inspired by Kiselev's ansatz, thus defining a deformed Reissner-Nordström metric. In particular, we consider thermodynamic properties of such black hole from the combined viewpoints of the modified equation of state parameter and the phenomenological approach to the quantum gravity problem called rainbow gravity.

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“…Therefore, no higher-order terms in the classical and quantum coordinates arise. By contrast, when the κ-deformation is applied to a curved manifold instead of (24), higher-order terms in the coordinates appear in the Poisson homogeneous spacetime, so that the corresponding quantization is not straightfoward at all, as the recent constructions of the κ-noncommutative (anti-)de Sitter [70], Newtonian and Carrollian [71] spacetimes explicitly show.…”

Section: Quantum Groups and Noncommutative Spacesmentioning

confidence: 99%

“…Explicitly, the non-vanishing commutation relations of so ω (5) read (71) We remark that, although the factor √ ω ab = 0 in the map ( 68) can be an imaginary number, enabling to change the real form of the algebra, the resulting commutation relations (70) of so ω (5) only comprise real Lie algebras. Moreover, the zero value for ω ab is consistently allowed in (70), which is equivalent to apply an Inönü-Wigner contraction [13,31], leading to a more abelian (contracted) Lie algebra. Consequently, each graded contraction parameter ω m can take a positive, negative or zero value in (70), and, when ω m = 0, it can be reduced to ±1 through scaling of the Lie generators.…”

Section: The Drinfel'd-jimbo Lie Bialgebra For the Cayley-klein Algebra So ω (5)mentioning

confidence: 99%

Cayley–Klein Lie Bialgebras: Noncommutative Spaces, Drinfel’d Doubles and Kinematical Applications

Gutiérrez-Sagredo

Herranz

2021

Symmetry

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The Cayley–Klein (CK) formalism is applied to the real algebra so(5) by making use of four graded contraction parameters describing, in a unified setting, 81 Lie algebras, which cover the (anti-)de Sitter, Poincaré, Newtonian and Carrollian algebras. Starting with the Drinfel’d–Jimbo real Lie bialgebra for so(5) together with its Drinfel’d double structure, we obtain the corresponding CK bialgebra and the CK r-matrix coming from a Drinfel’d double. As a novelty, we construct the (first-order) noncommutative CK spaces of points, lines, 2-planes and 3-hyperplanes, studying their structural properties. By requiring dealing with real structures, we found that there exist 63 specific real Lie bialgebras together with their sets of four noncommutative spaces. Furthermore, we found 14 classical r-matrices coming from Drinfel’d doubles, obtaining new results for the de Sitter so(4,1) and anti-de Sitter so(3,2) as well as for some of their contractions. These geometric results were exhaustively applied onto the (3 + 1)D kinematical algebras, considering not only the usual (3 + 1)D spacetime but also the 6D space of lines. We established different assignations between the geometrical CK generators and the kinematical ones, which convey physical identifications for the CK contraction parameters in terms of the cosmological constant/curvature Λ and the speed of light c. We, finally, obtained four classes of kinematical r-matrices together with their noncommutative spacetimes and spaces of lines, comprising all κ-deformations as particular cases.

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The κ-(A)dS noncommutative spacetime

Cited by 31 publications

References 58 publications

Asymptotic freedom for $$\lambda \phi ^4_{\star }$$ QFT in Snyder–de Sitter space

Asymptotic freedom for $$\lambda \phi ^4_{\star }$$ QFT in Snyder–de Sitter space

Effects of Planck-scale-modified dispersion relations on the thermodynamics of charged black holes

Cayley–Klein Lie Bialgebras: Noncommutative Spaces, Drinfel’d Doubles and Kinematical Applications

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