Tests and Problems of the Standard Model in Cosmology

@article{LpezCorredoira2017TestsAP,
  title={Tests and Problems of the Standard Model in Cosmology},
  author={Mart{\'i}n L{\'o}pez-Corredoira},
  journal={Foundations of Physics},
  year={2017},
  volume={47},
  pages={711-768}
}
The main foundations of the standard $$\Lambda $$ΛCDM model of cosmology are that: (1) the redshifts of the galaxies are due to the expansion of the Universe plus peculiar motions; (2) the cosmic microwave background radiation and its anisotropies derive from the high energy primordial Universe when matter and radiation became decoupled; (3) the abundance pattern of the light elements is explained in terms of primordial nucleosynthesis; and (4) the formation and evolution of galaxies can be… 

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It is shown that the traditional calculation of the CMB temperature is inappropriate and that light emitted by any source inside the Big Bang universe earlier than half its "conformal age" can only become visible to us via a return path.

Does standard cosmology really predict the cosmic microwave background?

It is shown that the traditional calculation of the CMB temperature is inappropriate and that light emitted by any source inside the Big Bang universe earlier than half its “conformal age” can only become visible to us via a return path.

Does standard cosmology really predict the cosmic microwave background?

It is shown that the traditional calculation of the CMB temperature is flawed and that light emitted by any source inside the Big Bang universe earlier than half its "conformal age", also by distant galaxies, can only become visible to us via a return path.

Does standard cosmology really predict the cosmic microwave background?

It is shown that the traditional calculation of the CMB temperature is flawed and that light emitted by any source inside the Big Bang universe earlier than half its "conformal age", also by distant galaxies, can only become visible to us via a return path.

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