Multifield mimetic gravity

In this paper, we extend the mimetic gravity to the multifield setup with a curved field space manifold. The multifield mimetic scenario is realized via the singular limit of the conformal transformation between the auxiliary and the physical metrics. We look for the cosmological implications of the setup where it is shown that at the background level the mimetic energy density mimics the roles of dark matter. At the perturbation level, the scalar field perturbations are decomposed into the tangential and normal components with respect to the background field space trajectory. The adiabatic perturbation tangential to the background trajectory is frozen while the entropy mode perpendicular to the background trajectory propagates with the speed of unity. Whether or not the entropy perturbation is healthy directly depends on the signature of the field-space metric. We perform the full nonlinear Hamiltonian analysis of the system with the curved field space manifold and calculate the physical degrees of freedom verifying that the system is free from the Ostrogradsky-type ghost.

Automated summary

This paper extends mimetic gravity to the multifield setup with a curved field space manifold. The cosmological implications of this setup are explored, showing that the mimetic energy density mimics the role of dark matter at the background level. The perturbation level analysis reveals that adiabatic perturbations tangential to the background trajectory are frozen, while entropy mode perpendicular to the trajectory propagates with unity speed. The health of the entropy perturbation depends on the signature of the field-space metric.