Beecroft Institute for Particle Astrophysics and Cosmology

Cumulants as non-Gaussian qualifiers

ArXiv astro-ph/9704261 (1997)

Authors:

Pedro G Ferreira, Joao Magueijo, Joseph Silk

Abstract:

We discuss the requirements of good statistics for quantifying non-Gaussianity in the Cosmic Microwave Background. The importance of rotational invariance and statistical independence is stressed, but we show that these are sometimes incompatible. It is shown that the first of these requirements prefers a real space (or wavelet) formulation, whereas the latter favours quantities defined in Fourier space. Bearing this in mind we decide to be eclectic and define two new sets of statistics to quantify the level of non-Gaussianity. Both sets make use of the concept of cumulants of a distribution. However, one set is defined in real space, with reference to the wavelet transform, whereas the other is defined in Fourier space. We derive a series of properties concerning these statistics for a Gaussian random field and show how one can relate these quantities to the higher order moments of temperature maps. Although our frameworks lead to an infinite hierarchy of quantities we show how cosmic variance and experimental constraints give a natural truncation of this hierarchy. We then focus on the real space statistics and analyse the non-Gaussian signal generated by points sources obscured by large scale Gaussian fluctuations. We conclude by discussing the practical implementations of these techniques.

Cumulants as non-Gaussian qualifiers

(1997)

Authors:

Pedro G Ferreira, Joao Magueijo, Joseph Silk

The closet non-Gaussianity of anisotropic Gaussian fluctuations

(1997)

Authors:

Pedro G Ferreira, Joao Magueijo

The closet non-Gaussianity of anisotropic Gaussian fluctuations

ArXiv astro-ph/9704052 (1997)

Authors:

Pedro G Ferreira, Joao Magueijo

Abstract:

In this paper we explore the connection between anisotropic Gaussian fluctuations and isotropic non-Gaussian fluctuations. We first set up a large angle framework for characterizing non-Gaussian fluctuations: large angle non-Gaussian spectra. We then consider anisotropic Gaussian fluctuations in two different situations. Firstly we look at anisotropic space-times and propose a prescription for superimposed Gaussian fluctuations; we argue against accidental symmetry in the fluctuations and that therefore the fluctuations should be anisotropic. We show how these fluctuations display previously known non-Gaussian effects both in the angular power spectrum and in non-Gaussian spectra. Secondly we consider the anisotropic Grischuk-Zel'dovich effect. We construct a flat space time with anisotropic, non-trivial topology and show how Gaussian fluctuations in such a space-time look non-Gaussian. In particular we show how non-Gaussian spectra may probe superhorizon anisotropy.

Constraints on a Primordial Magnetic Field

(1997)

Authors:

John D Barrow, Pedro G Ferreira, Joseph Silk