Abstract

We propose a new interpretation of Hubble law. Waves are observed in the observer space-time. It defines the observer proper time T. Space-time is composed of three spatial dimensions and three temporal parameters: proper-time s of the observed object, proper time T of the observer and integration time t (currently considered as relative time). Time origin is the birth of the universe. So, universe is stable; it can be seen as the comobile space of expansion theory. When changing space-time from the source to the observer, waves are seen cooling; this explains the redshift effect. The distance is defined as the product of the delay time with the local speed of light of the observer. The mistake between t and T can explain why universe is viewed as not only in expansion but also in acceleration whereas we think it is stable.

Highlights

  • Up to now, physics laws are based on Einstein relativity, established in 1905

  • Cosmology is based on an interpretation of the redshift as expansion [2] through the ΛCDM model

  • First we present the model and we discuss the interpretation of redshift applied to black body radiation

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Summary

Introduction

Physics laws are based on Einstein relativity, established in 1905. Hubble has discovered the correlation between redshift and distance [1]. Cosmology is based on an interpretation of the redshift as expansion [2] through the ΛCDM model. This article proposes a new approach to explain Hubble law. We propose a model without expansion and based on a new space-time notion. It defines the local proper time of the observer. First we present the model and we discuss the interpretation of redshift applied to black body radiation. We compare the proposed model to measured data in the distance modulus—redshift diagram. (2015) A New Interpretation of the Hubble Law. Journal of Modern Physics, 6, 12271232.

Presentation
Application to the Black Body Radiation
The Hubble Law
What We Think Is Wrong in Present Expansion Model
Conclusions
Full Text
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