A 750 GeV graviton from holographic composite dark sectors

Carmona, Adrian

doi:10.1016/j.physletb.2016.07.040

Article
Report number	CERN-TH-2016-073 ; arXiv:1603.08913 ; CERN-TH-2016-073
Title	A 750 GeV graviton from holographic composite dark sectors
Author(s)	Carmona, Adrian (CERN)
Publication	2016
Imprint	29 Mar 2016
Number of pages	6
Note	9 pages, 9 figures; v2: revised and improved analysis, discussion on the interplay with the radion dynamics added, matches version accepted in Physics Letters B
In:	Phys. Lett. B 760 (2016) 502-508
DOI	10.1016/j.physletb.2016.07.040
Subject category	Particle Physics - Phenomenology
Abstract	We show that the 750 GeV di-photon excess can be interpreted as a spin-2 resonance arising from a strongly interacting dark sector featuring some departure from conformality. This spin-2 resonance has negligible couplings to the SM particles, with the exception of the SM gauge bosons which mediate the two sectors. We have explicitly studied the collider constraints as well as some theoretical bounds in a holographic five dimensional model with a warp factor that deviates from AdS$_5$. In particular, we have shown that it is not possible to decouple the vector resonances arising from the strong sector while explaining the di-photon anomaly and keeping the five dimensional gravity theory under perturbative control. However, due to the deformation of conformality, vector resonances with masses around the TeV scale can be present while all experimental constraints are met.
Copyright/License	arXiv nonexclusive-distrib. 1.0 preprint: © 2016-2025 CERN (License: CC-BY-4.0) publication: © 2016-2025 The Author(s) (License: CC-BY-4.0), sponsored by SCOAP³

$Warp factor as defined in eq.~(\ref{eq:metric}) for $ky_1=35$, $ky_s=35.1$ and different values of $\nu$. We also show the AdS$_5$ case for comparison, which corresponds to the limits $\nu\to \infty$ or $k y_s\to \infty$.$ $Constraints from EWPT at 95\% C.L. in the $\nu-kL_1$ plane for different values of $m_{\rm KK}$ assuming $A(y_1)=37.5$. For each value of $m_{\rm KK}$, values of $\nu$ and $kL_1$ within the corresponding green region are allowed.$ $Excluded regions for losing 5D perturbativity control in the $\nu-kL_1$ plane for different values of $m_{\rm KK}$, assuming $A(y_1)=37.5$ and $M_5L_1\lesssim 0.4$. For each value of $m_{\rm KK}$, values of $\nu$ and $kL_1$ within the corresponding red region are excluded. The RS limit $k L_1\to 1$ is also excluded for $m_{\rm KK}=2\,\TeV$.$ Show more plots

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