论文信息 - Space-time foam in 2D and the sum over topologies

Space-time foam in 2D and the sum over topologies

It is well-known that the sum over topologies in quantum gravity is ill- defined, due to a super-exponential growth of the number of geometries as a function of the space-time volume, leading to a badly divergent gravita- tional path integral. Not even in dimension 2, where a non-perturbative quantum gravity theory can be constructed explicitly from a (regular- ized) path integral, has this problem found a satisfactory solution. – In the present work, we extend a previous 2d Lorentzian path integral, regu- lated in terms of Lorentzian random triangulations, to include space-times with an arbitrary number of handles. We show that after the imposition of physically motivated causality constraints, the combined sum over ge- ometries and topologies is well-defined and possesses a continuum limit which yields a concrete model of space-time foam in two dimensions.

R. Loll | W. Westra

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