New Higgs Field Ansatz for Effective Gravity in Flat Space Time

A. Geitner (1); M. Hanauske (1); E. Hitzer (2) ((1) U. of Konstanz in; Germany; (2) U. of Kyoto in Japan)

arXiv:gr-qc/9801048·gr-qc·May 23, 2007

New Higgs Field Ansatz for Effective Gravity in Flat Space Time

A. Geitner (1), M. Hanauske (1), E. Hitzer (2) ((1) U. of Konstanz in, Germany, (2) U. of Kyoto in Japan)

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TL;DR

This paper proposes a novel Higgs field approach to approximate gravity in flat spacetime, extending the model to second order and incorporating isospinorial degrees of freedom to unify gravity with particle physics.

Contribution

It introduces a second-order effective gravity approximation using Higgs fields and incorporates isospinorial degrees of freedom for unification.

Findings

01

Achieves complete agreement with gravitational wave cases

02

Extends effective gravity approximation to second order

03

Proposes a unification scheme with isospinorial Higgs fields

Abstract

Regarding Pauli's matrices as proper Higgs fields one can deduce an effective(!) approximation for gravity in flat space. In this work we extend this approximation up to the second order. Reaching complete agreement in the special case of gravitational waves. Unification in view, we introduce isospinorial degrees of freedom. In this way the mass spectrum and chiral asymmetry can be generated with the help of an additional scalar Higgs field. The Higgs modes corresponding to gravity are discussed.

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Taxonomy

TopicsPulsars and Gravitational Waves Research · Cosmology and Gravitation Theories · Black Holes and Theoretical Physics