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A non-commutative Kalb-Ramond black hole

A. A. Araújo Filho, N. Heidari, Iarley P. Lobo

2025Journal of Cosmology and Astroparticle Physics12 citationsDOIOpen Access PDF

Abstract

Abstract This work presents a new black hole solution within the framework of a non-commutative gauge theory applied to Kalb-Ramond gravity. Using the method recently proposed in the literature [Nucl.Phys.B 1017 (2025) 116950], we employ the Moyal twist ∂ r ∧∂ θ to implement non-commutativity, being encoded by parameter Θ. We begin by verifying that the resulting black hole no longer possesses spherical symmetry, while the event horizon remains unaffected by non-commutative corrections. The Kretschmann scalar is computed to assess the corresponding regularity. It turns out that the solution is regular, provided that the Christoffel symbols and related quantities are not expanded to second order in Θ. We derive the thermodynamic quantities, including the Hawking temperature T (Θ,ℓ) , entropy S (Θ,ℓ) , and heat capacity C V (Θ,ℓ) . The remnant mass M rem is estimated by imposing T (Θ,ℓ) → 0, although the absence of a physical remnant indicates complete evaporation. Quantum radiation for bosons and fermions is analyzed via the tunneling method, where divergent integrals are treated using the residue theorem. Notably, in the low-frequency regime, the particle number density for bosons surpasses that of fermions (at least within the scope of the methods considered here). The effective potential for a massless scalar field is obtained perturbatively, enabling the computation of quasinormal modes and the time-domain profiles. Finally, further bounds on Θ and ℓ (Lorentz-violating paramter) are derived from solar system tests, including the perihelion precession of Mercury, light deflection, and the Shapiro time delay.

Topics & Concepts

PhysicsEvent horizonFermionBlack hole (networking)Hawking radiationMassless particleBosonWhite holeExtremal black holeBlack hole thermodynamicsScalar fieldQuantum mechanicsTheoretical physicsEntropy (arrow of time)Fermionic fieldQuantum electrodynamicsRotating black holeScalar (mathematics)Quantum field theory in curved spacetimeMathematical physicsGeneral relativityGauge theoryQuantum field theorySchwarzschild metricQuantumScalar bosonMicro black holeProper timeHorizonHeat capacityBlack hole information paradoxMassive particleNoncommutative and Quantum Gravity TheoriesAdvanced Differential Geometry ResearchQuantum Mechanics and Applications