Login   Tu sei in: tecnopolo


La rete regionale


logo piattaforma

logo piattaforma

logo piattaforma

logo piattaforma

logo piattaforma

 

logo piattaforma
Piattaforma Agroalimentare

logo piattaforma
Piattaforma ENA

logo piattaforma
Piattaforma ICT e DESIGN


logo piattaforma
Piattaforma MECCANICA e MATERIALI


BIBLIOGRAFIA prodotta dal laboratorio



Lista di tutta la bibliografia
Search for pair production of vectorlike quarks in the fully hadronic final state
Autori A. M. Sirunyan et al. (The CMS Collaboration)  Anno 2019
Tipologia Articolo Rivista internazionale con referaggio
Abstract The results of two searches for pair production of vector-like T or B quarks in fully hadronic final states are presented, using data from the CMS experiment at a center-of-mass energy of 13 TeV. The data were collected at the LHC during 2016 and correspond to an integrated luminosity of 35.9 fb−1. A cut-based analysis specifically targets the bW decay mode of the T quark and allows for the reconstruction of the T quark candidates. In a second analysis, a multiclassification algorithm, the "boosted event shape tagger," is deployed to label candidate jets as originating from top quarks, and W, Z, and H. Candidate events are categorized according to the multiplicities of identified jets, and the scalar sum of all observed jet momenta is used to discriminate signal events from the quantum chromodynamics multijet background. Both analyses probe all possible branching fraction combinations of the T and B quarks and set limits at 95% confidence level on their masses, ranging from 740 to 1370 GeV. These results represent a significant improvement relative to existing searches in the fully hadronic final state.
Referenza_Bibliografica Phys. Rev. D 100 (2019) 072001
Riferimento WEB https://arxiv.org/abs/1906.11903
Riferimento WEB 2 http://inspirehep.net/record/1741996
Unita di Ricerca NUCAP
LastUpdate 05/03/2020
Topic di ricerca collegati
Codice Topic di ricerca Descrizione
4 TECNICHE ISOTOPICHE





POR FESR

logo rete



Condividi questa pagina con

LinkedIN share Facebook share condividi