Abstract
Spectral features in LHC dileptonic events may signal radiative corrections coming from new degrees of freedom, notably dark matter and mediators. Using simplified models, we show how these features can reveal the fundamental properties of the dark sector, such as self-conjugation, spin and mass of dark matter, and the quantum numbers of the mediator. Distributions of both the invariant mass $m_{\ell \ell}$ and the Collins-Soper scattering angle $cos\theta_{CS}$ are studied to pinpoint these properties. We derive constraints on the models from LHC measurements of $m_{\ell \ell}$ and $cos\theta_{CS}$, which are competitive with direct detection and jets + Missing Energy searches. We find that in certain scenarios the $cos\theta_{CS}$ spectrum provides the strongest bounds, underlying the importance of scattering angle measurements for non-resonant new physics.
Highlights
Astrophysical evidence for dark matter (DM) abounds, but its fundamental properties remain elusive
We find a scarcity in the literature of Large Hadron Collider (LHC)-related work addressing the questions of self-conjugation, spin and coupling structure, perhaps because the primary focus of most collider searches is to extract the mass of DM and possibly that of a mediator that couples the DM particle to the Standard Model (SM)
Much more revealing differences appear in the angular spectrum; we know from Z boson physics and from contact operator analyses that the chiral nature of new states has an impact on the scattering angle
Summary
Astrophysical evidence for dark matter (DM) abounds, but its fundamental properties remain elusive. [10], where the matrix element method was employed to distinguish DM spin and mass; see [11,12,13,14,15,16,17,18] These studies make use of MET, the most striking feature of DM directly produced on shell at the LHC. We make full use of the information available in dileptonic events at the LHC, meaning we study spectra of the invariant mass (mll) and scattering angle. To our knowledge, this is the first paper availing LHC measurements of dilepton angular spectra to probe DM and its mediators.
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