Abstract
The Next-to-Minimal Supersymmetric Standard Model (NMSSM), the singlet extension of the MSSM which fixes many of the MSSM’s shortcomings, is shown to be within reach of the upcoming runs of the Large Hadron Collider (LHC). A systematic treatment of the various Higgs decay channels and their interplay has been lacking due to the seemingly large number of free parameters in the NMSSM’s Higgs sector. We demonstrate that due to the SM-like nature of the observed Higgs boson, the NMSSM’s Higgs and neutralino sectors have highly correlated masses and couplings and can effectively be described by four physically intuitive parameters: the physical masses of the two CP-odd states and their mixing angle, and tan β, which plays a minor role. The heavy Higgs bosons in the NMSSM have large branching ratios into pairs of lighter Higgs bosons or a light Higgs and a Z boson. Search channels arising via these Higgs cascades are unique to models like the NMSSM with a Higgs sector larger than that of the MSSM. In order to cover as much of the NMSSM parameter space as possible, one must combine conventional search strategies employing decays of the additional Higgs bosons into pairs of SM particles with Higgs cascade channels. We demonstrate that such a combination would allow a significant fraction of the viable NMSSM parameter space containing additional Higgs bosons with masses below 1 TeV to be probed at future runs of the LHC.
Highlights
125 GeV SM-like state observed at the Large Hadron Collider (LHC)
We demonstrate that such a combination would allow a significant fraction of the viable Next-to-Minimal Supersymmetric Standard Model (NMSSM) parameter space containing additional Higgs bosons with masses below 1 TeV to be probed at future runs of the LHC
We have studied the collider phenomenology of the Z3-invariant NMSSM
Summary
The Next-to-Minimal Supersymmetric Standard Model augments the MSSM particle content with a chiral superfield S uncharged under any of the SM gauge groups. We study the scale-invariant NMSSM, where all dimensionful parameters in the superpotential are set to zero This model enjoys an accidental Z3 symmetry under which all chiral superfields transform by e2πi/3. Λ and tan β can be chosen positive without loss of generality, while κ and the dimensionful parameters can have both signs It it useful to rotate the doublet-like states to the (extended) Higgs basis [18, 32, 33, 42,43,44,45,46]4 defined in terms of the basis {SM, NSM, S} = {SM doublet, Non-SM doublet, Singlet},. The tree-level elements of the symmetric squared mass matrix for the CP-odd Higgs boson in the basis {ANSM, AS} are given by. We decouple the gauginos from the collider phenomenology by setting the bino and wino mass parameters {|M1|, |M2|} |μ|
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