Phase Transitions in the Early Universe with Negatively Induced Supergravity Cosmological Constant

Phase Transitions in the Early Universe with Negatively Induced Supergravity Cosmological Constant

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摘要 We consider that the observable cosmological constant is the sum of the vacuum （Avac） and the induced term （Aind - 3m^2/4） with m being the ultra-llght masses （≈ Hubble parameter） implemented in the theory from supergravities arguments and non-minimal coupling. In the absence of a scalar buildup of matter fields, we study its effects on spontaneous symmetry breaking with a Higgs potential and show how the presence of the ultra-light masses yields some important consequences for the early universe and new constraints on the Higgs and electroweak gauge bosons masses. We consider that the observable cosmological constant is the sum of the vacuum （Avac） and the induced term （Aind - 3m^2/4） with m being the ultra-llght masses （≈ Hubble parameter） implemented in the theory from supergravities arguments and non-minimal coupling. In the absence of a scalar buildup of matter fields, we study its effects on spontaneous symmetry breaking with a Higgs potential and show how the presence of the ultra-light masses yields some important consequences for the early universe and new constraints on the Higgs and electroweak gauge bosons masses.

作者 EL-NABULSI Ahmad Rami

机构地区 Plasma Application Laboratory

出处《Chinese Physics Letters》 SCIE CAS CSCD 2006年第5期1124-1127,共4页 中国物理快报（英文版）

关键词 SPONTANEOUS SYMMETRY-BREAKING MASSLESS PARTICLES CURVED SPACETIME GAUGE-THEORIES CURVATURE MODELS FIELD SPONTANEOUS SYMMETRY-BREAKING MASSLESS PARTICLES CURVED SPACETIME GAUGE-THEORIES CURVATURE MODELS FIELD

分类号 P1 [天文地球—天文学]

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Chinese Physics Letters

2006年第5期

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Phase Transitions in the Early Universe with Negatively Induced Supergravity Cosmological Constant

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