Computer Simulations of 3d Lorentzian Quantum Gravity
Abstract
We investigate the phase diagram of non-perturbative three-dimensional Lorentzian quantum gravity with the help of Monte Carlo simulations. The system has a first-order phase transition at a critical value k0c of the bare inverse gravitational coupling constant k0. For k0 > k0c the system reduces to a product of uncorrelated Euclidean 2d gravity models and has no intrinsic interest as a model of 3d gravity. For k0 < k0c, extended three-dimensional geometries dominate the functional integral despite the fact that we perform a sum over geometries and no particular background is distinguished at the outset. Furthermore, all systems with k0 < k0c have the same continuum limit. A different choice of k0 corresponds merely to a redefinition of the overall length scale.
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