Shankha Banerjee
Centre national de la recherche scientifique
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by Shankha Banerjee.
Journal of High Energy Physics | 2016
Shankha Banerjee; Daniele Barducci; G. Belanger; Cédric Delaunay
A bstractHeavy vector-like quarks coupled to a scalar S will induce a coupling of this scalar to gluons and possibly (if electrically charged) photons. The decay of the heavy quark into Sq, with q being a Standard Model quark, provides, if kinematically allowed, new channels for heavy quark searches. Inspired by naturalness considerations, we consider the case of a vector-like partner of the top quark. For illustration, we show that a singlet partner can be searched for at the 13 TeV LHC through its decay into a scalar resonance in the 2γ + ℓ + X final states, especially if the diphoton branching ratio of the scalar S is further enhanced by the contribution of non coloured particles. We then show that conventional heavy quark searches are also sensitive to this new decay mode, when S decays hadronically, by slightly tightening the current selection cuts. Finally, we comment about the possibility of disentangling, by scrutinising appropriate kinematic distributions, heavy quark decays to St from other standard decay modes.
Journal of High Energy Physics | 2016
Shankha Banerjee; G. Belanger; Biswarup Mukhopadhyaya; Pasquale D. Serpico
A bstractCurrent data (LHC direct searches, Higgs mass, dark matter-related bounds) severely affect the constrained minimal SUSY standard model (CMSSM) with neutralinos as dark matter candidates. But the evidence for neutrino masses coming from oscillations requires extending the SM with at least right-handed neutrinos with a Dirac mass term. In turn, this implies extending the CMSSM with right-handed sneutrino superpartners, a scenario we dub ν˜CMSSM
Physical Review D | 2015
Shankha Banerjee; Alejandro Ibarra; P. S. Bhupal Dev; Manimala Mitra; Tanumoy Mandal
Physical Review D | 2014
Shankha Banerjee; Satyanarayan Mukhopadhyay; Biswarup Mukhopadhyaya
\tilde{\nu}\mathrm{CMSSM}
Journal of High Energy Physics | 2016
Shankha Banerjee; Shigeki Matsumoto; Kyohei Mukaida; Yue-Lin Sming Tsai
Journal of High Energy Physics | 2016
Shankha Banerjee; Biplob Bhattacherjee; Manimala Mitra; Michael Spannowsky
. These additional states constitute alternative dark matter candidates of the superWIMP type, produced via the decay of the long-lived next-to-lightest SUSY particle (NLSP). Here we consider the interesting and likely case where the NLSP is a τ˜
Journal of High Energy Physics | 2017
Shankha Banerjee; Daniele Barducci; G. Belanger; Benjamin Fuks; Andreas Goudelis; Bryan Zaldivar
Physical Review D | 2017
Shankha Banerjee; Brian Batell; Michael Spannowsky
\tilde{\tau}
European physical journal C, 2018, Vol.78(4), pp.322 [Peer Reviewed Journal] | 2018
Shankha Banerjee; Christoph Englert; M. Mangano; M. Selvaggi; Michael Spannowsky
European Physical Journal C | 2018
Shankha Banerjee; Michael Spannowsky; M. Mangano; Christoph Englert; M. Selvaggi
: despite the modest extension with respect to the CMSSM this scenario has the distinctive signatures of heavy, metastable charged particles. After taking into account the role played by neutrino mass bounds and the specific cosmological bounds from the big bang nucleosynthesis in selecting the viable parameter space, we discuss the excellent discovery prospects for this model at the future runs of the LHC. We show that it is possible to probe τ˜1
Collaboration
Dive into the Shankha Banerjee's collaboration.
