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Zoomed cosmological simulations of Milky Way sized halos in f(R)-gravity

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arxiv 1604.06095 v2 pith:Q33FFCTY submitted 2016-04-20 astro-ph.CO astro-ph.GA

Zoomed cosmological simulations of Milky Way sized halos in f(R)-gravity

classification astro-ph.CO astro-ph.GA
keywords haloscosmologicalmilkysimulationssizeddarkgravitymatter
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We investigate the impact of f(R) modified gravity on the internal properties of Milky Way sized dark matter halos in a set of cosmological zoom simulations of seven halos from the Aquarius suite, carried out with our code MG-GADGET in the Hu & Sawicki f(R) model. Also, we calculate the fifth forces in ideal NFW-halos as well as in our cosmological simulations and compare them against analytic model predictions for the fifth force inside spherical objects. We find that these theoretical predictions match the forces in the ideal halos very well, whereas their applicability is somewhat limited for realistic cosmological halos. Our simulations show that f(R) gravity significantly affects the dark matter density profile of Milky Way sized objects as well as their circular velocities. In unscreened regions, the velocity dispersions are increased by up to 40% with respect to LCDM for viable f(R) models. This difference is larger than reported in previous works. The Solar circle is fully screened in $f_{R0} = -10^{-6}$ models for Milky Way sized halos, while this location is unscreened for slightly less massive objects. Within the scope of our limited halo sample size, we do not find a clear dependence of the concentration parameter of dark matter halos on $f_{R0}$.

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Cited by 1 Pith paper

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  1. Realistic simulations of galaxy formation in f(R) modified gravity

    astro-ph.CO 2019-07 unverdicted novelty 7.0

    Hydrodynamical simulations in f(R) gravity using Illustris-TNG find observable 20% effects on high-z HI and stellar power spectra exceeding SKA errors, plus changes in disc galaxy formation.