Abstract
Sparticle mass hierarchies contain significant information regarding the origin and nature of supersymmetry breaking. The hierarchical patterns are severely constrained by electroweak symmetry breaking as well as by the astrophysical and particle physics data. They are further constrained by the Higgs boson mass measurement. The sparticle mass hierarchies can be used to generate simplified models consistent with the high scale models. In this work we consider supergravity models with universal boundary conditions for soft parameters at the unification scale as well as supergravity models with nonuniversalities and delineate the list of sparticle mass hierarchies for the five lightest sparticles. Simplified models can be obtained by a truncation of these, retaining a smaller set of lightest particles. The mass hierarchies and their truncated versions enlarge significantly the list of simplified models currently being used in the literature. Benchmarks for a variety of supergravity unified models appropriate for SUSY searches at future colliders are also presented. The signature analysis of two benchmark models has been carried out and a discussion of the searches needed for their discovery at LHC RUN-II is given. An analysis of the spin independent neutralino-proton cross section exhibiting the Higgs boson mass dependence and the hierarchical patterns is also carried out. It is seen that a knowledge of the spin independent neutralino-proton cross section and the neutralino mass will narrow down the list of the allowed sparticle mass hierarchies. Thus dark matter experiments along with analyses for the LHC Run-II will provide strong clues to the nature of symmetry breaking at the unification scale.
Highlights
This is the landscape of possible mass hierarchies of the new particles.2,3 The number of allowed possibilities is significantly reduced in supergravity grand unification with radiative breaking of the electroweak symmetry [23,24,25]
It should be noted that these simplified models are obviously part of a UV complete theory since they are obtained by truncation of the spectrum arising from a high scale model
In this work we have analyzed the landscape of sparticle mass hierarchies that are consistent with the Higgs boson mass measurement
Summary
We consider several different supergravity models of soft breaking. These include supergravity models with (1) universal boundary conditions as well as supergravity models with nonuniversal boundary conditions (nuSUGRA) at the grand unification scale. Within nuSUGRA, we consider (2) nonuniversalities in the SU(2)L gaugino mass sector, (3) nonuniversalities in the SU(3)C gaugino mass sector, (4) nonuniversalities in the Higgs sector, and (5) nonuniversalities in the flavor sector with the sfermion masses for the third generation being different from the masses in the first two generations. Is not too light with mh0 > 120 GeV. (For some recent works on mSUGRA see [60,61,62,63]) These constraints immediately reduce the available number of sparticle mass hierarchies. Analysis of the sparticle mass hierarchies for the nuSUGRA Model [4] with nonuniversality in the Higgs boson mass sectors, and in table 9 an analysis is given of the sparticle mass hierarchies for nuSUGRA Model [5] for the case when nonuniversality is in the third generation sfermion sector. In table 10 a number of benchmarks are presented for both universal and nonuniversal SUGRA cases These benchmarks respect all the collider, flavor and cosmological constraints and are not excluded by the by Run-I of the LHC
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