Quasispherical Szekeres models allow a small but less special observer region for CMB dipole consistency and can accommodate significant quadrupole unlike LTB voids.
Testing the Copernican Principle via Cosmological Observations
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abstract
Observations of distances to Type-Ia supernovae can be explained by cosmological models that include either a gigaparsec-scale void, or a cosmic flow, without the need for Dark Energy. Instead of invoking dark energy, these inhomogeneous models instead violate the Copernican Principle. we show that current cosmological observations (Supernovae, Baryon Acoustic Oscillations and estimates of the Hubble parameters based on the age of the oldest stars) are not able to rule out inhomogeneous anti-Copernican models. The next generation of surveys for baryonic acoustic oscillations will be sufficiently precise to either validate the Copernican Principle or determine the existence of a local Gpc scale inhomogeneity.
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astro-ph.CO 1years
2019 1verdicts
UNVERDICTED 1representative citing papers
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CMB dipoles and other low-order multipoles in the quasispherical Szekeres model
Quasispherical Szekeres models allow a small but less special observer region for CMB dipole consistency and can accommodate significant quadrupole unlike LTB voids.