Noncommutative spherically symmetric spacetimes at semiclassical order

Abstract

Working within the recent formalism of Poisson-Riemannian geometry, we completely solve the case of generic spherically symmetric metric and spherically symmetric Poisson-bracket to find a unique answer for the quantum differential calculus, quantum metric and quantum Levi-Civita connection at semiclassical order O(λ). Here λ is the deformation parameter, plausibly the Planck scale. We find that r,t,dr,dt are all forced to be central, i.e. undeformed at order λ, while for each value of r,t we are forced to have a fuzzy sphere of radius r with a unique differential calculus which is necessarily nonassociative at order λ2. We give the spherically symmetric quantisation of the FLRW cosmology in detail and also recover a previous analysis for the Schwarzschild black hole, now showing that the quantum Ricci tensor for the latter vanishes at order λ. The quantum Laplace-Beltrami operator for spherically symmetric models turns out to be undeformed at order λ while more generally in Poisson-Riemannian geometry we show that it deforms to \[ f+λ 2ωαβ( Ricγα-Sγ;α)(∇β d f)γ + O(λ2)\] in terms of the classical Levi-Civita connection ∇, the contorsion tensor S, the Poisson-bivector ω and the Ricci curvature of the Poisson-connection that controls the quantum differential structure. The Majid-Ruegg spacetime [x,t]=λ x with its standard calculus and unique quantum metric provides an example with nontrivial correction to the Laplacian at order λ.