Fluctuating Dimension in a Discrete Model for Quantum Gravity Based on the Spectral Principle
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2003-08-22
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The spectral principle of Connes and Chamseddine is used as a starting point to define a discrete model for Euclidean quantum gravity. Instead of summing over ordinary geometries, we consider the sum over generalized geometries where topology, metric, and dimension can fluctuate. The model describes the geometry of spaces with a countable number [Formula presented] of points, and is related to the Gaussian unitary ensemble of Hermitian matrices. We show that this simple model has two phases. The expectation value [Formula presented], the average number of points in the Universe, is finite in one phase and diverges in the other. We compute the critical point as well as the critical exponent of [Formula presented]. Moreover, the space-time dimension [Formula presented] is a dynamical observable in our model, and plays the role of an order parameter. The computation of [Formula presented] is discussed and an upper bound is found, [Formula presented]. © 2003 The American Physical Society.
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Physical Review Letters, v. 91, n. 8, 2003.
