Probing extra dimension through gravitational wave observations of compact binaries and their electromagnetic counterparts

Yu, Hao; Gu, Bao-Min; Huang, Fa Peng; Wang, Yongqiang; Meng, Xin-He; Liu, Yu-Xiao

doi:10.1088/1475-7516/2017/02/039

Cited by 34 publications

(25 citation statements)

References 118 publications

(154 reference statements)

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“…The problem is that results depend on a structure of extra space, a number of extra dimensions, and their size. For example, interesting result has been obtained in [36] where the difference between propagations of GW and electromagnetic waves has been studied. This study is applicable only for a one-dimensional extra space.…”

Section: Resultsmentioning

confidence: 99%

Inhomogeneous Extra Space as a Tool for the Top-Down Approach

Rubin

2018

Advances in High Energy Physics

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Section: Resultsmentioning

confidence: 99%

Inhomogeneous Extra Space as a Tool for the Top-Down Approach

Rubin

2018

Advances in High Energy Physics

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“…We also calculated the scalar curvature given by Eq. (19) which is plotted in Fig 3. The Finally, we calculated the analogue quantum potential U p (z) which is plotted in Fig. 5.…”

Section: Model I: the Asymmetric Hybrid Branementioning

confidence: 99%

“…To reinforce the compact profile of the brane, we computed numerically the scalar curvature given by Eq. (19). We plot the numerical solution in the Fig.…”

Section: Model Ii: the Compact Branementioning

confidence: 99%

Corrections to Newton’s law of gravitation in the context of codimension-1 warped thick braneworlds

Veras

Almeida

2017

Phys. Rev. D

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In this work, we compute the corrections in the Newton's law of gravitation due to Kaluza-Klein gravitons in codimension-1 warped thick braneworld scenarios. We focus in some models recently proposed in the literature, the so-called asymmetric hybrid brane and compact brane. Such models are deformations of the φ 4 and sine-Gordon topological defects, respectively. Therefore we consider the branes engendered by such defects and we also compute the corrections in their cases. We use suitable numerical techniques to attain the mass spectrum and its corresponding eigenfunctions which are the essential quantities for computing the correction to the Newtonian potential. Moreover, we discuss that the existence of massive modes is necessary for building a braneworld model with a phenomenology involved. We find that the odd eigenfunctions have non-trivial contributions and the first eigenstate of the Kaluza-Klein tower has the highest contribution. The calculation of slight deviations in the gravitational potential may be used as a selection tool for braneworld scenarios matching with future experimental measurements in high energy collisions.

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“…The observation of gravitational waves (GWs) by Advanced Laser Interferometer Gravitational Wave Observatory (aLIGO) [1] has initiated a new era of exploring the cosmology, the nature of gravity as well as the fundamental particle physics by the GW detectors [2][3][4][5][6][7][8][9]. Especially, due to the limitation of the colliders' energy, GW detectors can be used as new or complementary techniques to probe the existence of the new physics (NP) by detecting the symmetry breaking patterns or phase transition history for large classes of NP models with an extended gauge group, which are motivated by the mysterious experimental results in our understanding of particle cosmology (such as the dark matter problem or the puzzling observed baryon asymmetry of the universe), and the absence of NP signals at current collider experiments.…”

Section: Introductionmentioning

confidence: 99%

Probing the gauge symmetry breaking of the early universe in 3-3-1 models and beyond by gravitational waves

Huang

Zhang

2019

Physics Letters B

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Taking the 3-3-1 models (with SU (3)c ⊗SU (3)L ⊗U (1)Y gauge group) as examples, we study that a class of new physics models with extended gauge group could undergo one or several first-order phase transitions associated with the spontaneously symmetry breaking processes during the evolution of the universe, which can produce detectable phase transition gravitational wave (GW) signals at future GW experiments, such as LISA, BBO, DECIGO, SKA and aLIGO. These GW signals can provide new sources of GWs with different peak frequencies, and can be used to probe the evolution history of the universe.PACS numbers:

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Probing extra dimension through gravitational wave observations of compact binaries and their electromagnetic counterparts

Cited by 34 publications

References 118 publications

Inhomogeneous Extra Space as a Tool for the Top-Down Approach

Inhomogeneous Extra Space as a Tool for the Top-Down Approach

Corrections to Newton’s law of gravitation in the context of codimension-1 warped thick braneworlds

Probing the gauge symmetry breaking of the early universe in 3-3-1 models and beyond by gravitational waves

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