Professor Pedro Ferreira

The trispectrum of the Cosmic Microwave Background on sub-degree angular scales: an analysis of the BOOMERanG data

ArXiv astro-ph/0301294 (2003)

Authors:

G De Troia, PAR Ade, JJ Bock, JR Bond, A Boscaleri, CR Contaldi, BP Crill, P de Bernardis, PG Ferreira, M Giacometti, E Hivon, VV Hristov, M Kunz, AE Lange, S Masi, PD Mauskopf, T Montroy, P Natoli, CB Netterfield, E Pascale, F Piacentini, G Polenta, G Romeo, JE Ruhl

Abstract:

The trispectrum of the cosmic microwave background can be used to assess the level of non-Gaussianity on cosmological scales. It probes the fourth order moment, as a function of angular scale, of the probability distribution function of fluctuations and has been shown to be sensitive to primordial non-gaussianity, secondary anisotropies (such as the Ostriker-Vishniac effect) and systematic effects (such as astrophysical foregrounds). In this paper we develop a formalism for estimating the trispectrum from high resolution sky maps which incorporates the impact of finite sky coverage. This leads to a series of operations applied to the data set to minimize the effects of contamination due to the Gaussian component and correlations between estimates at different scales. To illustrate the effect of the estimation process, we apply our procedure to the BOOMERanG data set and show that it is consistent with Gaussianity. This work presents the first estimation of the CMB trispectrum on sub-degree scales.

Determining Foreground Contamination in CMB Observations: Diffuse Galactic Emission in the MAXIMA-I Field

(2003)

Authors:

AH Jaffe, A Balbi, JR Bond, J Borrill, PG Ferreira, D Finkbeiner, S Hanany, AT Lee, B Rabii, PL Richards, GF Smoot, R Stompor, CD Winant, JHP Wu

Determining Foreground Contamination in CMB Observations: Diffuse Galactic Emission in the MAXIMA-I Field

ArXiv astro-ph/0301077 (2003)

Authors:

AH Jaffe, A Balbi, JR Bond, J Borrill, PG Ferreira, D Finkbeiner, S Hanany, AT Lee, B Rabii, PL Richards, GF Smoot, R Stompor, CD Winant, JHP Wu

Abstract:

Observations of the CMB can be contaminated by diffuse foreground emission from sources such as Galactic dust and synchrotron radiation. In these cases, the morphology of the contaminating source is known from observations at different frequencies, but not its amplitude at the frequency of interest for the CMB. We develop a technique for accounting for the effects of such emission in this case, and for simultaneously estimating the foreground amplitude in the CMB observations. We apply the technique to CMB data from the MAXIMA-1 experiment, using maps of Galactic dust emission from combinations of IRAS and DIRBE observations, as well as compilations of Galactic synchrotron emission observations. The spectrum of the dust emission over the 150--450 GHz observed by MAXIMA is consistent with preferred models but the effect on CMB power spectrum observations is negligible.

MAXIPOL: A balloon-borne experiment for measuring the polarization anisotropy of the cosmic microwave background radiation

New Astronomy Reviews 47:11-12 (2003) 1067-1075

Authors:

BR Johnson, ME Abroe, P Ade, J Bock, J Borrill, JS Collins, P Ferreira, S Hanany, AH Jaffe, T Jones, AT Lee, L Levinson, T Matsumura, B Rabii, T Renbarger, PL Richards, GF Smoot, R Stompor, HT Tran, CD Winant

Abstract:

We discuss MAXIPOL, a bolometric balloon-borne experiment designed to measure the E-mode polarization anisotropy of the cosmic microwave background radiation (CMB) on angular scales of 10′ to 2°. MAXIPOL is the first CMB experiment to collect data with a polarimeter that utilizes a rotating half-wave plate and fixed wire-grid polarizer. We present the instrument design, elaborate on the polarimeter strategy and show the instrument performance during flight with some time domain data. Our primary dataset was collected during a 26 h turnaround flight that was launched from the National Scientific Ballooning Facility in Ft. Sumner, New Mexico in May 2003. During this flight five regions of the sky were mapped. Data analysis is in progress. © 2003 Elsevier B.V. All rights reserved.

The MAXIMA experiment: Latest results and consistency tests

Comptes Rendus Physique 4:8 (2003) 841-852

Authors:

R Stompor, S Hanany, ME Abroe, J Borrill, PG Ferreira, AH Jaffe, B Johnson, AT Lee, B Rabii, PL Richards, G Smoot, C Winant, JHP Wu

Abstract:

The MAXIMA cosmic microwave background anisotropy experiment had a significant impact on cosmology. Results from the program have played a significant role in determining the geometry of the universe, given strong supporting evidence to inflation, and, in combination with other astrophysical data, showed that the universe is filled with dark matter and energy. We present a subset of the internal consistency checks that were carried out on the MAXIMA-1 data prior to their release, which demonstrate that systematics errors were much smaller than statistical errors. We also discuss the MAXIMA-2 flight and data, compare the maps of MAXIMA-1 and -2 in areas where they overlap and show that the two independent experiments confirm each other. All of these results demonstrate that MAXIMA mapped the cosmic microwave background anisotropy with high accuracy. © 2003 Académie des sciences. Published by Elsevier SAS. All rights reserved.