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MSSM-inflation revisited: Towards a coherent description of high-energy physics and cosmology
Auteur(s): Weymann-Despres Gilles, Henrot-Versillé Sophie, Moultaka G., Vennin Vincent, Duflot Laurent, von Eckardstein Richard
(Article) Publié:
-Phys.rev.d, vol. 108 p.023511 (2023)
Texte intégral en Openaccess :
Ref HAL: hal-04080642_v1
Ref Arxiv: 2304.04534
Ref INSPIRE: 2650104
DOI: 10.1103/PhysRevD.108.023511
Ref. & Cit.: NASA ADS
Exporter : BibTex | endNote
Résumé: The aim of this paper is to highlight the challenges and potential gains surrounding a coherent description of physics from the high-energy scales of inflation down to the lower energy scales probed in particle-physics experiments. As an example, we revisit the way inflation can be realised within an effective Minimal Supersymmetric Standard Model (eMSSM), in which the $LLe$ and $udd$ flat directions are lifted by the combined effect of soft-supersymmetric-breaking masses already present in the MSSM, together with the addition of effective non-renormalizable operators. We clarify some features of the model and address the question of the one-loop Renormalization Group improvement of the inflationary potential, discussing its impact on the fine-tuning of the model. We also compare the parameter space that is compatible with current observations (in particular the amplitude, $A_{\scriptscriptstyle{\mathrm{S}}}$, and the spectral index, $n_{\scriptscriptstyle{\mathrm{S}}}$, of the primordial cosmological fluctuations) at tree level and at one loop, and discuss the role of reheating. Finally we perform combined fits of particle and cosmological observables (mainly $A_{\scriptscriptstyle{\mathrm{S}}}$, $n_{\scriptscriptstyle{\mathrm{S}}}$, the Higgs mass, and the cold-dark-matter energy density) with the one-loop inflationary potential applied to some examples of dark-matter annihilation channels (Higgs-funnel, Higgsinos and A-funnel), and discuss the status of the ensuing MSSM spectra with respect to the LHC searches.
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SuSpect3: A C++ Code for the Supersymmetric and Higgs Particle Spectrum of the MSSM
Auteur(s): Kneur J.-L., Moultaka G., Ughetto M., Zerwas Dirk, Djouadi Abdelhak
(Article) Publié:
Computer Physics Communications, vol. 291 p.108805 (2023)
Texte intégral en Openaccess :
Ref HAL: in2p3-03880228_v1
Ref Arxiv: 2211.16956
Ref INSPIRE: 2605921
DOI: 10.1016/j.cpc.2023.108805
Ref. & Cit.: NASA ADS
Exporter : BibTex | endNote
Résumé: We present the program SuSpect3 that calculates the masses and couplings of the Higgs and supersymmetric particles predicted by the Minimal Supersymmetric Standard Model (MSSM). The model is implemented in both its non-constrained version, the MSSM, and its constrained versions, such as the minimal supergravity and the gauge or anomaly mediated supersymmetry breaking models, in which the soft supersymmetry-breaking parameters obey certain universal boundary conditions at the high energy scale. The low energy parameters are then obtained using renormalization group equations and electroweak symmetry breaking, and all the dominant radiative corrections have been consistently implemented. SuSpect3 is a major rewrite, in C++ object oriented programming, of the FORTRAN code SuSpect. It includes all the features of the earlier code in an improved and updated manner, and involves new options such as compressed SUSY scenarios, an MSSM-inflation model and the possibility of using the observed Higgs mass as an input. The main features and the use of the program are explained.
Commentaires: 33 pages
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Le Boson de Higgs
Auteur(s): Moultaka G.
(Séminaires)
Salle du Sénéchal, 17 rue de Rémusat, Toulouse (Toulouse, FR), 2020-02-26Texte intégral en Openaccess :
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Vacuum stability conditions for Higgs potentials with SU(2)(L) triplets
Auteur(s): Moultaka G., Peyranère Michel C.
(Article) Publié:
Physical Review D, vol. 103 p.115006 (2021)
Texte intégral en Openaccess :
Ref HAL: hal-03087658_v1
Ref Arxiv: 2012.13947
Ref INSPIRE: 1838400
DOI: 10.1103/PhysRevD.103.115006
WoS: WOS:000661786800005
Ref. & Cit.: NASA ADS
Exporter : BibTex | endNote
Résumé: Tree-level dynamical stability of scalar field potentials in renormalizable theories can in principle be expressed in terms of positivity conditions on quartic polynomial structures. However, these conditions cannot always be cast in a fully analytical resolved form, involving only the couplings and being valid for all field directions. In this paper we consider such forms in three physically motivated models involving SU (2) triplet scalar fields: the Type-II seesaw model, the Georgi-Machacek model, and a generalized two-triplet model. A detailed analysis of the latter model allows to establish the full set of necessary and sufficient boundedness from below conditions. These can serve as a guide, together with unitarity and vacuum structure constraints, for consistent phenomenological (tree-level) studies. They also provide a seed for improved loop-level conditions, and encompass in particular the leading ones for the more specific Georgi-Machacek case. Incidentally, we present complete proofs of various properties and also derive general positivity conditions on quartic polynomials that are equivalent but much simpler than the ones used in the literature.
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Standard Model singlets and hard susy breaking in N=1 Supergravity
Auteur(s): Moultaka G.
Conférence invité: 1 st Mediterranean Conference on Higgs Physics (MCHP) (Tanger, MA, 2019-09-23)
Texte intégral en Openaccess :
Ref HAL: hal-03090752_v1
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Résumé: The standard lore has it that supersymmetry breaking in the visible sector is always soft when mediated by gravity from a hidden sector of Supergravity.Correspondingly, the associated generic forms of the superpotential and Kahler potential have long been the basis for the construction of consistent low energy susy models. In this talk we report on the existence of a whole class of new forms, equally consistent for low energy susy model building, but exhibiting hard susy breaking on top of the usual soft one. Moreover, these new forms require Standard Model gauge singlet chiral superfields displaying specific structures and flat directions. We discuss briefly the possible phenomenological spin-offs regarding the 125GeV Higgs fine-tuning issues and the (so far) non-discovery of susy particles, as well as next-to-minimal susy inflationary model-building. (based on G. Moultaka, M.R. de Traubenberg & D. Tant, Int.J.Mod.Phys. A34 (2019) no.01, 1950004, and work in progress).
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New Supergravity-mediated NNMSSM-like strutures
Auteur(s): Moultaka G.
Conference: NMSSM International Workshop (Montpellier, FR, 2018-03-05)
Texte intégral en Openaccess :
Ref HAL: hal-02884262_v1
Exporter : BibTex | endNote
Résumé: General forms of the Kähler and superpotenials that lead to consistent low energy brokenSupersymmetry originating from N = 1 Supergravity have been classified and used formodel building since more than three decades. We point out the incompleteness of thisclassification when hidden sector vacuum expectation values are of the order of the Planckmass. Focusing in this paper mainly on the case of minimal Kähler potential, we adopta rigorous approach that retrieves on the one hand the known forms, and demonstrateon the other hand the existence of a whole set of new forms for the superpotential ofwhich we give a complete classification. The latter forms involve a new type of chiralsuperfields having the unusual property of belonging neither to the hidden sector nor tothe conventional observable sector. Comparing the obtained forms with the conventionalones, we argue how new possibilities for model building can arise, and discuss the gravitymediation of soft as well as additional hard (but parametrically small) Supersymmetrybreaking, in the presence of the new type of chiral superfields. In the simplest case,we study the vacuum structure, characterize the masses and couplings of the scalarcomponents to the hidden and observable sectors and discuss briefly the physical rolethey could play. In the generic case, we estimate the magnitude and possible consequencesof the hard breaking of Supersymmetry in terms of the interplay between hidden andvisible sectors mass scales.
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