We present a full diagrammatic computation of the one-loop corrections from
the neutrino/sneutrino sector to the renormalized neutral CP-even Higgs boson
self-energies and the lightest Higgs boson mass, Mh, within the context of the
so-called MSSM-seesaw scenario. This consists of the Minimal Supersymmetric
Standard Model with the addition of massive right handed Majorana neutrinos and
their supersymmetric partners, and where the seesaw mechanism is used for the
lightest neutrino mass generation. We explore the dependence on all the
parameters involved, with particular emphasis in the role played by the heavy
Majorana scale. We restrict ourselves to the case of one generation of
neutrinos/sneutrinos. For the numerical part of the study, we consider a very
wide range of values for all the parameters involved. We find sizeable
corrections to Mh, which are negative in the region where the Majorana scale is
large (10^{13}-10^{15} GeV) and the lightest neutrino mass is within a range
inspired by data (0.1-1 eV). For some regions of the MSSM-seesaw parameter
space, the corrections to Mh are substantially larger than the anticipated
Large Hadron Collider precision.Comment: Latex, 50 pages, 15 figures, 6 tables. Discussion improved. Comments
  and some new approximate formulae have been added. Published version on JHE

Heinemeyer, S.

Herrero, M. J.

Penaranda, S.

Rodriguez-Sanchez, A. M.

English

arXiv

S. Heinemeyer

M. J. Herrero

S. Peñaranda

A. M. Rodríguez-Sánchez

Crossref

Journal of High Energy Physics

Higgs boson masses in the MSSM with heavy Majorana neutrinos

Journal of High Energy Physics 2011.5 (2011): 063 reproduced by permission of Scuola Internazionale Superiore di Studi Avanzati (SISSA)We present a full diagrammatic computation of the one-loop corrections from the neutrino/sneutrino sector to the renormalized neutral CP-even Higgs boson self-energies and the lightest Higgs boson mass, Mh, within the context of the so-called MSSM-seesaw scenario. This consists of the Minimal Supersymmetric Standard Model with the addition of massive right handed Majorana neutrinos and their supersymmetric partners, and where the seesaw mechanism is used for the lightest neutrino mass generation. We explore the dependence on all the parameters involved, with particular emphasis in the role played by the heavy Majorana scale. We restrict ourselves to the case of one generation of neutrinos/ sneutrinos. For the numerical part of the study, we consider a very wide range of values for all the parameters involved. We find sizeable corrections to Mh, which are negative in the region where the Majorana scale is large (1013 - 1015 GeV) and the lightest neutrino mass is within a range inspired by data (0.1-1 eV). For some regions of the MSSM-seesaw parameter space, the corrections to Mh are substantially larger than the anticipated Large Hadron Collider precisionThe work of S.H. was partially supported by CICYT (grant FPA 2007-66387) and by the Spanish Consolider-Ingenio 2010 Program under grant MultiDark CSD2009-00064. The work of M.H. and A.R.-S. was partially supported by CICYT (grants FPA2006-05423 and FPA2009-09017) and the Comunidad de Madrid project HEPHACOS, S2009/ESP-1473. A.R.-S. thanks the Spanish Ministry of Science and Education for her FPU fellowship ref. AP2006-02535. The work of S.P. was supported by a Ramón y Cajal contract from MEC (Spain) (PDRYC-2006-000930) and partially by CICYT (grants FPA2006-2315 and FPA2009-09638) and the Comunidad de Aragón project DCYT-DGA E24/2. The work is also supported in part by the European Community’s Marie-Curie Research Training Network under contract MRTN-CT-2006-035505 and also by the Spanish Consolider-Ingenio 2010 Programme CPAN (CSD2007-00042

Heinemeyer, Sven

Herrero Solans, María José

Peñaranda, Siannah

Rodríguez-Sánchez, A. M.

Biblos-e Archivo

We present a full diagrammatic computation of the one-loop corrections from the neutrino/sneutrino sector to the renormalized neutral CP-even Higgs boson self-energies and the lightest Higgs boson mass, Mh, within the context of the so-called MSSM-seesaw scenario. This consists of the Minimal Supersymmetric Standard Model with the addition of massive right handed Majorana neutrinos and their supersymmetric partners, and where the seesaw mechanism is used for the lightest neutrino mass generation. We explore the dependence on all the parameters involved, with particular emphasis in the role played by the heavy Majorana scale. We restrict ourselves to the case of one generation of neutrinos/sneutrinos. For the numerical part of the study, we consider a very wide range of values for all the parameters involved. We find sizeable corrections to Mh, which are negative in the region where the Majorana scale is large (10^{13}-10^{15} GeV) and the lightest neutrino mass is within a range inspired by data (0.1-1 eV). For some regions of the MSSM-seesaw parameter space, the corrections to Mh are larger than the anticipated Large Hadron Collider precision

Heinemeyer, S

Herrero, M J

Penaranda, S

Rodriguez-Sanchez, A M

CERN Document Server

Higgs Boson Masses in the MSSM with Heavy Majorana Neutrinos

50 páginas, 15 figuras, 6 tablas.We present a full diagrammatic computation of the one-loop corrections from the neu-
trino/sneutrino sector to the renormalized neutral CP-even Higgs boson self-energies
and the lightest Higgs boson mass, Mh, within the context of the so-called MSSM-
seesaw scenario. This consists of the Minimal Supersymmetric Standard Model with
the addition of massive right handed Majorana neutrinos and their supersymmetric
partners, and where the seesaw mechanism is used for the lightest neutrino mass gen-
eration. We explore the dependence on all the parameters involved, with particular
emphasis in the role played by the heavy Majorana scale. We restrict ourselves to the
case of one generation of neutrinos/sneutrinos. For the numerical part of the study, we
consider a very wide range of values for all the parameters involved. We find sizeable
corrections to Mh, which are negative in the region where the Majorana scale is large
(1013 − 1015 GeV) and the lightest neutrino mass is within a range inspired by data
(0.1 − 1 eV). For some regions of the MSSM-seesaw parameter space, the corrections
to Mh are substantially larger than the anticipated Large Hadron Collider precision.The work of S.H. was partially
supported by CICYT (grant FPA 2007–66387) and by the Spanish Consolider-Ingenio 2010
Program under grant MultiDark CSD2009-00064. The work of M.H. and A.R.-S. was partially
supported by CICYT (grants FPA2006-05423 and FPA2009-09017) and the Comunidad
de Madrid project HEPHACOS, S2009/ESP-1473. A.R.-S. thanks the Spanish Ministry of
Science and Education for her FPU fellowship Ref. AP2006-02535. The work of S.P. was supported by a Ram´on y Cajal contract from MEC (Spain) (PDRYC-2006-000930) and partially
by CICYT (grants FPA2006-2315 and FPA2009-09638) and the Comunidad de Arag´on
project DCYT-DGA E24/2. The work is also supported in part by the European Community’s
Marie-Curie Research Training Network under contract MRTN-CT-2006-035505 and
also by the Spanish Consolider-Ingenio 2010 Programme CPAN (CSD2007-00042).Peer reviewe

Herrero, María José

Peñaranda, S.

Rodríguez-Sánchez, Ana M.

Digital.CSIC

Higgs Boson Masses in the MSSM with Heavy Majorana Neutrinos

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