Professor Pedro Ferreira

On the growth of structure in theories with a dynamical preferred frame

ArXiv 0711.0520 (2007)

Authors:

TG Zlosnik, PG Ferreira, GD Starkman

Abstract:

We study the cosmological stability of a class of theories with a dynamical preferred frame. For a range of actions, we find cosmological solutions which are compatible with observations of the recent history of the Universe: a matter dominated era followed by accelerated expansion. We then study the evolution of linear perturbations on these backgrounds and find conditions on the parameters of the theory which allow for the growth of structure sourced by the new degrees of freedom.

Observing the temperature of the Big Bang through large scale structure

(2007)

Authors:

Pedro Ferreira, Joao Magueijo

Observing the temperature of the Big Bang through large scale structure

ArXiv 0708.0429 (2007)

Authors:

Pedro Ferreira, Joao Magueijo

Abstract:

It is widely accepted that the Universe underwent a period of thermal equilibrium at very early times. One expects a residue of this primordial state to be imprinted on the large scale structure of space time. In this paper we study the morphology of this thermal residue in a universe whose early dynamics is governed by a scalar field. We calculate the amplitude of fluctuations on large scales and compare it to the imprint of vacuum fluctuations. We then use the observed power spectrum of fluctuations on the cosmic microwave background to place a constraint on the temperature of the Universe before and during inflation. We also present an alternative scenario where the fluctuations are predominantly thermal and near scale-invariant.

Generalized Einstein-Aether theories and the Solar System

(2007)

Authors:

Camille Bonvin, Ruth Durrer, Pedro G Ferreira, Glenn Starkman, Tom G Zlosnik

Generalized Einstein-Aether theories and the Solar System

ArXiv 0707.3519 (2007)

Authors:

Camille Bonvin, Ruth Durrer, Pedro G Ferreira, Glenn Starkman, Tom G Zlosnik

Abstract:

It has been shown that generalized Einstein-Aether theories may lead to significant modifications to the non-relativistic limit of the Einstein equations. In this paper we study the effect of a general class of such theories on the Solar System. We consider corrections to the gravitational potential in negative and positive powers of distance from the source. Using measurements of the perihelion shift of Mercury and time delay of radar signals to Cassini, we place constraints on these corrections. We find that a subclass of generalized Einstein-Aether theories are compatible with these constraints.