CWRU PAT Coffee Agenda

Tuesdays 10:30 - 11:30 | Fridays 11:30 - 12:30

+2 Is there proof that backreaction of inhomogeneities is irrelevant in cosmology?

aam80 +1 cjc5 +1

+2 Soft Theorems from Effective Field Theory

aam80 +2

+1 Ultra-large scale cosmology with next-generation experiments

aam80 +1

+1 Stability of cosmological solutions in extended quasidilaton massive gravity

aam80 +1

+1 The large-scale properties of simulated cosmic magnetic fields.

cad96 +1

+1 Non-minimal derivative couplings of the composite metric.

cad96 +1

Showing votes from 2015-05-29 12:30 to 2015-06-02 11:30 | Next meeting is Friday Jul 10th, 11:30 am.

users

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astro-ph.CO

  • The large-scale properties of simulated cosmic magnetic fields.- [PDF] - [Article]

    Federico Marinacci, Mark Vogelsberger, Philip Mocz, Ruediger Pakmor, (2) CfA, (3) HITS)
     

    We perform uniformly sampled large-scale cosmological simulations including magnetic fields with the moving mesh code AREPO. We run two sets of MHD simulations: one including adiabatic gas physics only; the other featuring the fiducial feedback model of the Illustris simulation. In the adiabatic case, the magnetic field amplification follows the $B \propto \rho^{2/3}$ scaling derived from `flux-freezing' arguments, with the seed field strength providing an overall normalisation factor. At high baryon overdensities the amplification is enhanced by shear flows and turbulence. Feedback physics and the inclusion of radiative cooling change this picture dramatically. Gas collapses to much larger densities and the magnetic field is amplified strongly, reaching saturation and losing memory of the initial seed field. At lower densities a dependence on the seed field strength and orientation, which in principle can be used to constrain models of cosmological magnetogenesis, is still present. Inside the most massive haloes magnetic fields reach values of $\sim 10-100\,\mu G$, in agreement with galaxy cluster observations. The topology of the field is tangled and gives rise to rotation measure signals in reasonable agreement with the observations. However, the rotation measure signal declines too rapidly towards larger radii compared to observational data.

  • Non-minimal derivative couplings of the composite metric.- [PDF] - [Article]

    Lavinia Heisenberg
     

    In the context of massive gravity, bi-gravity and multi-gravity non-minimal matter couplings via a specific composite effective metric were investigated recently. Even if these couplings generically reintroduce the Boulware-Deser ghost, this composite metric is unique in the sense that the ghost reemerges only beyond the decoupling limit and the matter quantum loop corrections do not detune the potential interactions. We consider non-minimal {\it derivative} couplings of the composite metric to matter fields for a specific subclass of Horndeski scalar-tensor interactions. We first explore these couplings in the mini-superspace and investigate in which scenario the ghost remains absent. We further study these non-minimal derivative couplings in the decoupling-limit of the theory and show that the equation of motion for the helicity-0 mode remains second order in derivatives. Finally, we discuss preliminary implications for cosmology.

astro-ph.HE

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astro-ph.GA

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astro-ph.IM

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gr-qc

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hep-ph

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hep-th

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hep-ex

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quant-ph

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other

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