Is it possible to estimate the Higgs Mass from the CMB Power Spectrum?

A.B. Arbuzov; B.M. Barbashov; A. Borowiec; V.N. Pervushin; S.A.; Shuvalov; A.F. Zakharov

arXiv:0802.3427·hep-ph·April 15, 2009

Is it possible to estimate the Higgs Mass from the CMB Power Spectrum?

A.B. Arbuzov, B.M. Barbashov, A. Borowiec, V.N. Pervushin, S.A., Shuvalov, A.F. Zakharov

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TL;DR

This paper explores the potential to estimate the Higgs boson mass from the Cosmic Microwave Background power spectrum by linking early universe particle processes to observable CMB features.

Contribution

It proposes a theoretical framework connecting primordial Higgs and electroweak boson decays to specific peaks in the CMB power spectrum, suggesting a method to estimate the Higgs mass.

Findings

01

Identification of three CMB peaks with Higgs, W, and Z boson decays

02

Estimated Higgs mass around 118 GeV consistent with experimental data

03

Correlation between primordial particle processes and CMB features

Abstract

General Relativity and Standard Model are considered as a theory of dynamical scale symmetry with definite initial data compatible with the accepted Higgs mechanism. In this theory the Early Universe behaves like a factory of electroweak bosons and Higgs scalars, and it gives a possibility to identify three peaks in the Cosmic Microwave Background power spectrum with the contributions of photonic decays and annihilation processes of primordial Higgs, W, and Z bosons in agreement with the QED coupling constant, Weinberg's angle, and Higgs' particle mass of about 118 GeV.

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