Asymmetric Dark Matter in the Sun and the Diphoton Excess at the LHC

TL;DR

This paper introduces a minimal ADM model with a pseudoscalar mediator that explains both solar anomalies and the 750 GeV diphoton excess at the LHC, predicting new light scalars and observable collider signatures.

Contribution

It proposes a unified minimal model linking asymmetric dark matter interactions with solar physics and collider signals, explaining the diphoton excess and solar anomalies simultaneously.

Findings

The pseudoscalar mediator around 750 GeV can explain the diphoton excess.

The model accounts for the solar helioseismology discrepancies.

Predicted signatures include a light scalar and various collider signals.

Abstract

It has been recently pointed out that a momentum-dependent coupling of the asymmetric Dark Matter (ADM) with nucleons can explain the broad disagreement between helioseismological observables and the predictions of standard solar models. In this paper, we propose a minimal simplified ADM model consisting of a scalar and a pseudoscalar mediator, in addition to a Dirac fermionic DM, for generating such momentum-dependent interactions. Remarkably, the pseudoscalar with mass around 750 GeV can simultaneously explain the solar anomaly and the recent diphoton excess observed by both ATLAS and CMS experiments in the early $\sqrt s=13$ TeV LHC data. In this framework, the total width of the resonance is naturally large, as suggested by the ATLAS experiment, since the resonance mostly decays to the ADM pair. The model predicts the existence of a new light scalar in the GeV range, interacting with quarks, and observable dijet, monojet and $t\bar{t}$ signatures for the 750 GeV resonance at the LHC.