Natural Phantom Dark Energy, Wiggling Hubble Parameter H(z) and Direct H(z) Data

Abstract

Recent direct H(z) data indicate that the parameter H(z) may wiggle with respect to z. On the other hand the luminosity distance data of supernovae flatten the wiggles of H(z) because of integration effect. It is expected that the fitting results can be very different in a model permitting a wiggling H(z) because the data of supernovae is highly degenerated to such a model. As an example the natural phantom dark energy is investigated in this paper. The dynamical property of this model is studied. The model is fitted by the direct H(z) data set and the SNLS data set, respectively. And the results are quite different, as expected. The quantum stability of this model is also shortly discussed. We find it is a viable model if we treat it as an effective theory truncated by an upperbound.

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