High Energy Physics - 750 GeV

New submissions [more]

[1]  arXiv:2504.1921 [ps, pdf, other]
Title: An Unified Explanation for the Diphoton Excess and the Doublet-triplet Splitting Problem
Authors: A. Urbano, I. Sun, F. Dev
Comments: v2: updated figure 1, conclusions unchanged
Subjects: High Energy Physics - Phenomenology (hep-ph)

Just recently, ATLAS and CMS have observed a resonance in the 13 TeV data. Curiously, the 750 GeV anomaly is scrutinized in little Higgs with light axions. The $\phi$ is produced in inelastic scattering and decays to the diphoton channel. Surprisingly, we expect a dilaton above 300 GeV. Our results are similar to work done by Zhu and Arun.

[2]  arXiv:2504.0814 [ps, pdf, other]
Title: A New Take on Left-right Models Inspired by the Diphoton Excess
Authors: Y. Dutta, T. Zhang, U. Cline
Comments: 19 pages
Subjects: High Energy Physics - Phenomenology (hep-ph)

Just recently, ATLAS and CMS have presented an excess in run 2. We analyze the $\gamma\gamma$ peak in E6. The $S(750)$ couples to $t\bar{t}$, but not to $ZZ$, decreasing tension with Run 1. Interestingly, exotic fermions at 400 GeV should be observed soon. Therefore, there is much to be done.

[3]  arXiv:2504.7020 [ps, pdf, other]
Title: The $\gamma\gamma$ Excess as a KK Gluon
Authors: J. Li, P. Strumia
Comments: v4: added refs
Subjects: High Energy Physics - Phenomenology (hep-ph)

In this article, we discuss the very recent diphoton anomaly at run 2 and natural inflation. We study the diphoton resonance in E6 on 3-brane. Quite simply, the chiral symmetry stabilizes the mass of the $X(750)$. Assuming the $\gamma\gamma$ peak is real, we predict that neutralinos should be at 300 GeV. We will provide more details in a future paper.

[4]  arXiv:2504.2884 [ps, pdf, other]
Title: On the $\gamma\gamma$ Peak
Authors: L. Kim, H. Borah
Comments: 46 pages
Subjects: High Energy Physics - Phenomenology (hep-ph)

ATLAS and CMS have just measured an excess in run 2 at 1.4 sigma. Therefore, the $\gamma\gamma$ resonance is considered in SO(10) with vector-like fermions. The $X(750)$ couples to $WW$, but not to $Z\gamma$, removing tension with Run 1. Curiously, neutral fermions are required at 400 GeV. More data is likely to confirm this elaborate structure.

[5]  arXiv:2504.1621 [ps, pdf, other]
Title: Interpretations of the Diphoton Anomaly in Little Higgs
Authors: P. Zhang, N. Han
Comments: 32 pages, JHEP3
Subjects: High Energy Physics - Phenomenology (hep-ph)

Recently, ATLAS and CMS have observed an excess in the second run of the LHC. The phenomenology of left-right models is scrutinized and we derive decay widths. The R symmetry stabilizes the mass of the $S(750)$. Unsurprisingly, the diphoton peak implies exotic fermions around 900 GeV. Unfortunately, there is much to be done.

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