LSP squark decays at the LHC and the neutrino mass hierarchy

The existence of R-parity in supersymmetric models can be naturally explained as being a discrete subgroup of gauged baryon minus lepton number (B - L). The most minimal supersymmetric B - L model triggers spontaneous R-parity violation, while remaining consistent with proton stability. This model i...

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Veröffentlicht in:	Physical review. D, Particles, fields, gravitation, and cosmology Particles, fields, gravitation, and cosmology, 2014-07, Vol.90 (1), Article 015034
Hauptverfasser:	Marshall, Zachary, Ovrut, Burt A., Purves, Austin, Spinner, Sogee
Format:	Artikel
Sprache:	eng
Schlagworte:	Decay Gravitation Hierarchies Leptons Neutrinos Searching String theory Supersymmetry
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description	The existence of R-parity in supersymmetric models can be naturally explained as being a discrete subgroup of gauged baryon minus lepton number (B - L). The most minimal supersymmetric B - L model triggers spontaneous R-parity violation, while remaining consistent with proton stability. This model is well motivated by string theory and makes several interesting, testable predictions. Furthermore, R-parity violation contributes to neutrino masses, thereby connecting the neutrino sector to the decay of the lightest supersymmetric particle (LSP). This paper analyzes the decays of third generation squark LSPs into a quark and a lepton. In certain cases, the branching ratios into charged leptons reveal information about the neutrino mass hierarchy, a current goal of experimental neutrino physics, as well as the [theta] sub(23) neutrino mixing angle. Furthermore, optimization of leptoquark searches for this scenario is discussed. Using currently available data, the lower bounds on the third generation squarks are computed.
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subjects	Decay Gravitation Hierarchies Leptons Neutrinos Searching String theory Supersymmetry
title	LSP squark decays at the LHC and the neutrino mass hierarchy
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