Probing entropy bounds with scalar field spacetimes
Abstract
We study covariant entropy bounds in dynamical spacetimes with naked singularities. Specifically we study a spherically symmetric massless scalar field solution. The solution is an inhomogeneous cosmology with an initial spacelike singularity, and a naked timelike singularity at the origin. We construct the entropy flux 4-vector for the scalar field, and show by explicit computation that the generalized covariant bound SL(B,B') (A(B)-A(B'))/4 is violated for light sheets L(B,B') in the neighbourhood of the (evolving) apparent horizon. We find no violations of the Bousso bound (for which A(B')=0), even though certain sufficient conditions for this bound do not hold. This result therefore shows that these conditions are not necessary.
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