Recent experimental highlights from the ATLAS and CMS collaborations at the CERN Large Hadron Collider will be presented. The LHC Run 2 has just concluded, having delivered over 150 fb−1 of proton-proton collisions at 13 TeV to each experiment. These large data sets enable ATLAS and CMS to expand their already wide-range physics programs and to continue their ambitious exploration of physics...
I will describe direct and indirect searches for new physics that can be carried out at a multi-TeV e+e- collider, with specific results for the energies, up to 3 TeV center of mass energy, and luminosities foreseen for the CLIC future collider project. I will focus on the searches and interpretations that aim at the discovery of new dynamics able to address some of the fundamental issues left...
Heavy neutrinos $(N)$ are commonly hypothesized in low-scale neutrino mass models and may be accessible at experiments such as LHC, or its potential successors like the 27 TeV HE-LHC or 100 TeV VLHC. We show how collider searches for such objects employing an usual (dynamic) jet veto scheme can radically improve sensitivity to EW- and TeV-scale heavy $N$. The new scheme is applicable to...
I will discuss the crossing-symmetry relation between b→cτν¯ decay and bc¯→τν¯ scattering. At low energies, this allows one to correlate New Physics contributions to the semitauonic B decays to the B(c) lifetime. At high energies, one derives direct correlations to the mono-tau signature at the LHC (pp→τhX + MET). I will discuss the impact of these considerations in New Physics explanations...
I will discuss the interplay between EW and Higgs measurements at future colliders.
We discuss the measurements of the anomalous triple gauge couplings at Large Hadron Collider focusing on the contribution of the O3W and O3W~ operators. These deviations were known to be particularly hard to measure due to their suppressed interference with the SM amplitudes in the inclusive processes, leading to approximate flat directions in the space of these Wilson coefficients. We present...
