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Cosmology Without the Fluid Approximation. Timothy Clifton (University of Oxford, UK). Work performed in collaboration with Pedro Ferreira. Small Scale Inhomogeneity. Its convenient to treat many discrete sources as a continuous fluid. .
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Cosmology Without the Fluid Approximation Timothy Clifton (University of Oxford, UK) Work performed in collaboration with Pedro Ferreira.
Small Scale Inhomogeneity Its convenient to treat many discrete sources as a continuous fluid. But does the continuous fluid have the same properties as the discrete set of objects?
Potential Pitfalls • The averaging problem. • The 'back-reaction' effect. • Photon's travel through empty spaces between galaxies, not through a continuous energy density.
Potential Pitfalls • The averaging problem. • The 'back-reaction' effect. • Photon's travel through empty spaces between galaxies, not through a continuous energy density. Area distance: Shear: Discrete points give R=0, C≠0. A continuous uniform fluid gives R≠0, C=0.
The Lindquist-Wheeler model • Lattice model (inspired by Wigner-Seitz construction).
The Lindquist-Wheeler model • Lattice model (inspired by Wigner-Seitz construction).
The Lindquist-Wheeler model • Lattice model (inspired by Wigner-Seitz construction).
Expansion of Space • Dynamics governed by the Friedmann equation. • Scale of expansion approaches FRW as N→∞.
Optical Properties Calculate a photon trajectory passing through many cells: Integrate expansion scalar, and shear along trajectory. rL=rL(z)
Redshift • The redshift-expansion relation can be different to FRW. • Trajectories along lattice symmetries are special. • Scatter around the average value is small at large z.
Luminosity Distance • The luminosity-redshift relation is different to FRW. • Typical trajectories are brighter at the same z. • Trajectories along lattice symmetries can be dimmer.
Results • Optical properties and dynamical properties of space-time do not approach a continuous limit in the same way. • Redshifts can be altered from their FRW values. • In the absence of shear, dimming can occur as a function of time, or brightening as a function of redshift (even as the continuous limit is approached). • Some trajectories are strongly affected by shear, and optical scalars can diverge. • Does not appear to behave as Dark Energy. • Could have significant impact on CMB observations and precision cosmology.