Difference between revisions of "Theoretical Calculation of the Hubble Constant and Relation to CMB and CIB"
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The cosmological displacement of spectral lines observed between different noticeable cosmic objects and Earth depends initially on the relative speeds between them. The present model sets out to evaluate the value of the Hubble constant ''H''<sub>0</sub> by taking account of the behavior of variable electric and magnetic fields, which shapes electromagnetic transmission to produce a spectral red-shift. Application of the model to a sampling of galaxy and quasars leads to a surprising relationship between the CMB, CIB and the cosmological red-shift, as well as to the discrepancy in the conventional distance to quasars. | The cosmological displacement of spectral lines observed between different noticeable cosmic objects and Earth depends initially on the relative speeds between them. The present model sets out to evaluate the value of the Hubble constant ''H''<sub>0</sub> by taking account of the behavior of variable electric and magnetic fields, which shapes electromagnetic transmission to produce a spectral red-shift. Application of the model to a sampling of galaxy and quasars leads to a surprising relationship between the CMB, CIB and the cosmological red-shift, as well as to the discrepancy in the conventional distance to quasars. | ||
− | [[Category:Scientific Paper]] | + | [[Category:Scientific Paper|theoretical calculation hubble constant relation cmb cib]] |
[[Category:Relativity]] | [[Category:Relativity]] |
Revision as of 11:21, 1 January 2017
Scientific Paper | |
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Title | Theoretical Calculation of the Hubble Constant and Relation to CMB and CIB |
Author(s) | Gonzalo A Moreno-Jim?nez |
Keywords | Hubble constant, cosmic microwave background (CMB), cosmic infrared background (CIB), cosmological redshift, galaxy redshift, quasar redshift |
Published | 2008 |
Journal | Galilean Electrodynamics |
Volume | 19 |
Number | 5 |
Pages | 83-86 |
Abstract
The cosmological displacement of spectral lines observed between different noticeable cosmic objects and Earth depends initially on the relative speeds between them. The present model sets out to evaluate the value of the Hubble constant H0 by taking account of the behavior of variable electric and magnetic fields, which shapes electromagnetic transmission to produce a spectral red-shift. Application of the model to a sampling of galaxy and quasars leads to a surprising relationship between the CMB, CIB and the cosmological red-shift, as well as to the discrepancy in the conventional distance to quasars.