The extended minimal geometric deformation of SU($N$) dark glueball condensates - INSPIRE

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The extended minimal geometric deformation of SU( $N$ ) dark glueball condensates

A. Fernandes-Silva
(
- ABC Federal U.
)
,
A.J. Ferreira-Martins
(
- ABC Federal U.
)
,
R. Da Rocha
(
- ABC Federal U.
)

Mar 8, 2018

9 pages

Published in:

Eur.Phys.J.C 78 (2018) 8, 631

Published: Aug 7, 2018

e-Print:

1803.03336 [hep-th]

DOI:

10.1140/epjc/s10052-018-6123-3 (publication)

View in:

ADS Abstract Service

reference search71 citations

Citations per year

Abstract: (Springer)

The extended minimal geometric deformation (EMGD) procedure, in the holographic membrane paradigm, is employed to model stellar distributions that arise upon self-interacting scalar glueball dark matter condensation. Such scalar glueballs are SU(N) Yang-Mills hidden sectors beyond the Standard Model. Then, corrections to the gravitational wave radiation, emitted by SU(N) EMGD dark glueball stars mergers, are derived, and their respective spectra are studied in the EMGD framework, due to a phenomenological brane tension with finite value. The bulk Weyl fluid that drives the EMGD is then proposed to be experimentally detected by enhanced windows at the eLISA and LIGO.

Note:

9 pages, 7 figures

04.50.-h
11.25.-w
04.70.Bw
glueball: scalar
deformation: geometrical
glueball: condensation
dark matter: condensation
membrane model: tension
gravitational radiation
hidden sector

References(36)

Figures(7)

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