Luca Vecchi
(INFN)
21/04/2017, 09:00
Sessione Frontiera Energia
Oral contribution
In this talk I will review some recent advances in beyond the Standard Model physics. Taking a critical theoretical perspective, I will discuss naturalness and its implications, dark matter, and various aspects of LHC physics.
Monica Verducci
(ROMA3),
Tommaso Lari
(MI)
21/04/2017, 09:20
Sessione Frontiera Energia
Oral contribution
The results and prospects for searches beyond the Standard Model (SM) at the LHC by the ATLAS and CMS collaborations are presented. Few extensions of the SM has been reported in various final states at 13 TeV center of mass energy at LHC, including di-Higgs production, heavy resonances and displaced decays. The data are found to be consistent with the Standard Model. The non-observation of a...
Roberto Leonardi
(PG)
21/04/2017, 09:45
Sessione Frontiera Energia
Oral contribution
Viene presentata una ricerca di fisica oltre il modello standard nello stato finale con due leptoni dello stesso sapore (elettroni o muoni) e due quark, prodotti in urti protone-protone ad energia nel centro di massa di 13 TeV. I dati sono stati raccolti dall'esperimento CMS e corrispondono ad una luminosità integrata di 2.3 inverse fb. I risultati della misura sono interpretati considerando...
Marco Vanadia
(ROMA2)
21/04/2017, 10:00
Sessione Frontiera Energia
Oral contribution
The presence of a non-baryonic dark matter component in the Universe is inferred from the observation of its gravitational interaction. If dark matter interacts weakly with the Standard Model sector, it can be produced at the LHC. The ATLAS collaboration has developed a broad and systematic search program for dark matter production in LHC collisions. The experimental techniques, the results of...
Lisa Benato
(INFN Padova)
21/04/2017, 10:15
Sessione Frontiera Energia
Oral contribution
A summary of the searches for heavy resonances decaying in dibosons is presented, performed on data produced by LHC p-p collisions at sqrt(s) = 13 TeV and collected with the CMS detector during 2016. The common feature of these analyses is the boosted topology, namely the decay products of the considered bosons (both electroweak (W, Z) bosons and the Higgs boson) are expected to be highly...
