Quantum Stabilization of Compact Space by Extra Fuzzy Space

Abstract

We investigate the quantized scalar field on the Kaluza-Klein spacetimes of MD× Td × SFZ, where MD is the ordinary D dimensional flat Minkowski spacetimes, Td is the d dimensional commutative torus, and SFZ is a noncommutative fuzzy two sphere with a fixed quantized radius. After evaluating the one-loop correction to the spectrum we use the mass-corrected term to compute the Casimir energy of the scalar field on the model spacetime. It is seen that, for some values of D and d, the Casimir energy due to vacuum fluctuation in the model spacetimes could give rise a repulsive force to stabilize the commutative torus.

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