Planck scale boundary conditions in the standard model with singlet scalar dark matter

Naoyuki Haba; Kunio Kaneta; Ryo Takahashi

doi:10.1007/JHEP04(2014)029

Planck scale boundary conditions in the standard model with singlet scalar dark matter

Naoyuki Haba, Kunio Kaneta, Ryo Takahashi

Physics and Astronomy (Twin Cities)

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29 Scopus citations

Abstract

We investigate Planck scale boundary conditions on the Higgs sector of the standard model with a gauge singlet scalar dark matter. We will find that vanishing selfcoupling and Veltman condition at the Planck scale are realized with the 126 GeV Higgs mass and top pole mass, 172 GeV I∼ M _t I∼ 173.5 GeV, where a correct abundance of scalar dark matter is obtained with mass of 300 GeV I∼ m _S I∼ 1 TeV. It means that the Higgs potential is flat at the Planck scale, and this situation can not be realized in the standard model with the top pole mass.

Original language	English (US)
Article number	29
Journal	Journal of High Energy Physics
Volume	2014
Issue number	4
DOIs	https://doi.org/10.1007/JHEP04(2014)029
State	Published - Apr 2014

Keywords

Beyond Standard Model
Cosmology of Theories beyond the SM
Higgs Physics

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abstract = "We investigate Planck scale boundary conditions on the Higgs sector of the standard model with a gauge singlet scalar dark matter. We will find that vanishing selfcoupling and Veltman condition at the Planck scale are realized with the 126 GeV Higgs mass and top pole mass, 172 GeV I∼ M t I∼ 173.5 GeV, where a correct abundance of scalar dark matter is obtained with mass of 300 GeV I∼ m S I∼ 1 TeV. It means that the Higgs potential is flat at the Planck scale, and this situation can not be realized in the standard model with the top pole mass.",

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AB - We investigate Planck scale boundary conditions on the Higgs sector of the standard model with a gauge singlet scalar dark matter. We will find that vanishing selfcoupling and Veltman condition at the Planck scale are realized with the 126 GeV Higgs mass and top pole mass, 172 GeV I∼ M t I∼ 173.5 GeV, where a correct abundance of scalar dark matter is obtained with mass of 300 GeV I∼ m S I∼ 1 TeV. It means that the Higgs potential is flat at the Planck scale, and this situation can not be realized in the standard model with the top pole mass.

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Planck scale boundary conditions in the standard model with singlet scalar dark matter

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