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- Title
WIGGLY COSMIC STRINGS ACCRETE DARK ENERGY.
- Authors
GONZÁLEZ-DÍAZ, PEDRO F.; MADRID, JOSÉ A. JIMÉNEZ
- Abstract
This paper deals with a study of the cylindrically symmetric accretion of dark energy with equation of state p = wρ onto wiggly straight cosmic strings, interpreting that the accreted energy only contributes the extent of the wiggliness, but consistently leaves invariant the unperturbed line density μ0. We have obtained that when w > -1, the perturbed linear energy density in the string core gradually increases tending to a finite maximum value as time increases, for all considered dark energy models. Where the dominant energy condition is violated, all such models predict a steady decreasing of the perturbed linear energy density μ of the cosmic strings as phantom energy is being accreted. The final state of the string after such an accretion process is a wiggleless defect. It is argued however, that if accreation of phantom energy would proceed by successive quantum steps, then the defect would continue losing perturbed linear energy density beyond μ0, until a minimum nonzero value which can be smaller than that corresponding to the unperturbed string.
- Subjects
DARK energy; ASTROPHYSICS; FORCE &; energy; ACCRETION (Astrophysics); STRING models (Physics)
- Publication
International Journal of Modern Physics D: Gravitation, Astrophysics & Cosmology, 2006, Vol 15, Issue 4, p603
- ISSN
0218-2718
- Publication type
Article