Are there ghosts in the self-accelerating brane universe?
Abstract
We study the spectrum of gravitational perturbations about a vacuum de Sitter brane with the induced 4D Einstein-Hilbert term, in a 5D Minkowski spacetime (DGP model). We consider solutions that include a self-accelerating univese, where the accelerating expansion of the universe is realized without introducing a cosmological constant on the brane. The mass of the discrete mode for the spin-2 graviton is calculated for various Hrc, where H is the Hubble parameter and rc is the cross-over scale determined by the ratio between the 5D Newton constant and the 4D Newton constant. We show that, if we introduce a positive cosmological constant on the brane (Hrc >1), the spin-2 graviton has mass in the range 0 < m2 < 2H2 and there is a normalisable brane fluctuation mode with mass m2=2 H2. Although the brane fluctuation mode is healthy, the spin-2 graviton has a helicity-0 excitation that is a ghost. If we allow a negative cosmological constant on the brane, the brane bending mode becomes a ghost for 1/2 < Hrc <1. This confirms the results obtained by the boundary effective action that there exists a scalar ghost mode for Hrc >1/2. In a self-accelerating universe Hrc=1, the spin-2 graviton has mass m2=2H2, which is known to be a special case for massive gravitons in de Sitter spacetime where the graviton has no helicity-0 excitation and so no ghost. However, in DGP model, there exists a brane fluctuation mode with the same mass and there arises a mixing between the brane fluctuation mode and the spin-2 graviton. We argue that this mixing presumably gives a ghost in the self-accelerating universe by continuity across Hrc=1, although a careful calculation of the effective action is required to verify this rigorously.
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