Splashback radius in symmetron gravity

Omar Contigiani, Valeri Vardanyan, and Alessandra Silvestri
Phys. Rev. D 99, 064030 – Published 21 March 2019

Abstract

The splashback radius rsp has been identified in cosmological N-body simulations as an important scale associated with gravitational collapse and the phase-space distribution of recently accreted material. We employ a semianalytical approach to study the spherical collapse of dark matter halos in symmetron gravity and provide, for the first time, insights into how the phenomenology of splashback is affected by modified gravity. The symmetron is a scalar-tensor theory which exhibits a screening mechanism whereby higher-density regions are screened from the effects of a fifth force. In this model, we find that, as overdensities grow over cosmic time, the inner region becomes heavily screened. In particular, we identify a sector of the parameter space for which material currently sitting at rsp has followed, during the collapse, the formation of this screened region. As a result, we find that for this part of the parameter space the splashback radius is maximally affected by the symmetron force, and we predict changes in rsp up to around 10% compared to its General Relativity value. Because this margin is within the precision of present splashback experiments, we expect this feature to soon provide constraints for symmetron gravity on previously unexplored scales.

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  • Received 10 January 2019

DOI:https://doi.org/10.1103/PhysRevD.99.064030

© 2019 American Physical Society

Physics Subject Headings (PhySH)

Gravitation, Cosmology & Astrophysics

Authors & Affiliations

Omar Contigiani1,2,*, Valeri Vardanyan1,2,†, and Alessandra Silvestri2,‡

  • 1Leiden Observatory, Leiden University, P.O. Box 9506, Leiden 2300 RA, Netherlands
  • 2Lorentz Institute for Theoretical Physics, Leiden University, P.O. Box 9506, Leiden 2300 RA, Netherlands

  • *contigiani@lorentz.leidenuniv.nl
  • vardanyan@lorentz.leidenuniv.nl
  • silvestri@lorentz.leidenuniv.nl

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Issue

Vol. 99, Iss. 6 — 15 March 2019

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