4.7 Article

Model-independent approach to effective sound speed in multi-field inflation

Journal

EUROPEAN PHYSICAL JOURNAL C
Volume 82, Issue 8, Pages -

Publisher

SPRINGER
DOI: 10.1140/epjc/s10052-022-10669-3

Keywords

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Funding

  1. UDEA projects [2021-44670-UFS, 2019-28270-MGT, ES84190101]
  2. NAWA
  3. National Science Centre (NCN) SHENG grant [UMO-2018/30/Q/ST9/00795]

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In this study, the relationship between comoving curvature perturbations and the momentum-dependent effective sound speed in physical systems satisfying the Einstein's equations is investigated. A general model-independent formula for the effective sound speed is derived using the components of the total energy-stress tensor. By applying it to two-field models, it is shown that the momentum-dependent effective sound speed fully accounts for the predictions for the power spectrum of curvature perturbations. These results highlight the importance of the momentum-dependent effective sound speed in describing both single-field effective theories in inflationary models and the effects of entropy perturbations in multi-field systems.
For any physical system satisfying the Einstein's equations, the comoving curvature perturbations satisfy an equation involving the momentum-dependent effective sound speed, valid for any system with a well defined energy-stress tensor, including multi-fields models of inflation. We derive a general model-independent formula for the effective sound speed of comoving adiabatic perturbations, valid for a generic field-space metric, without assuming any approximation to integrate out entropy perturbations, but expressing the momentum-dependent effective sound speed in terms of the components of the total energy-stress tensor. As an application, we study a number of two-field models with a kinetic coupling between the fields, identifying the single curvature mode of the effective theory and showing that momentum-dependent effective sound speed fully accounts for the predictions for the power spectrum of curvature perturbations. Our results show that the momentum-dependent effective sound speed is a convenient scheme for describing all inflationary models that admit a single-field effective theory, including the effects of entropy pertubations present in multi-fields systems.

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