New exact solutions for power-law inflation Friedmann models
Abstract
We consider the spatially flat Friedmann model. For a(t) = tp, especially, if p is larger or equal to 1, this is called power-law inflation. For the Lagrangian L = Rm with p = - (m - 1)(2m - 1)/(m - 2), power-law inflation is an exact solution, as it is for Einstein gravity with a minimally coupled scalar field Phi in an exponential potential V(Phi) = exp(mu Phi) and also for the higher-dimensional Einstein equation with a special Kaluza-Klein ansatz. The synchronized coordinates are not adapted to allow a closed-form solution, so we use another gauge. Finally, special solutions for the closed and open Friedmann model are found.
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