A mass-extended 't Hooft-Nobbenhuis complex transformations and their   consequences

Arbab I. Arbab; Hisham M. Widatallah

arXiv:1007.1781·physics.gen-ph·January 13, 2011

A mass-extended 't Hooft-Nobbenhuis complex transformations and their consequences

Arbab I. Arbab, Hisham M. Widatallah

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TL;DR

This paper extends 't Hooft-Nobbenhuis complex transformations to include mass, demonstrating invariance of key equations and proposing a solution to the cosmological constant problem by enforcing its vanishing.

Contribution

It introduces a mass-extended transformation framework that preserves fundamental equations and addresses the cosmological constant problem.

Findings

01

Invariance of Schrödinger, Dirac, Klein-Gordon, and Einstein equations under the new transformations.

02

The cosmological constant must vanish to maintain invariance, solving the longstanding problem.

03

Provides a novel symmetry-based approach to fundamental physics issues.

Abstract

We have extended the 't Hooft-Nobbenhuis complex transformations to include mass. Under these new transformations, Schrodinger, Dirac, Klein-Gordon and Einstein general relativity equations are invariant. The non invariance of the cosmological constant in Einstein field equations dictates it to vanish thus solving the longstanding cosmological constant problem.

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