Beecroft Institute for Particle Astrophysics and Cosmology

Estimate of the cosmological bispectrum from the MAXIMA-1 cosmic microwave background map.

Phys Rev Lett 88:24 (2002) 241302

Authors:

MG Santos, A Balbi, J Borrill, PG Ferreira, S Hanany, AH Jaffe, AT Lee, J Magueijo, B Rabii, PL Richards, GF Smoot, R Stompor, CD Winant, JHP Wu

Abstract:

We use the measurement of the cosmic microwave background taken during the MAXIMA-1 flight to estimate the bispectrum of cosmological perturbations. We propose an estimator for the bispectrum that is appropriate in the flat sky approximation, apply it to the MAXIMA-1 data, and evaluate errors using bootstrap methods. We compare the estimated value with what would be expected if the sky signal were Gaussian and find that it is indeed consistent, with a chi(2) per degree of freedom of approximately unity. This measurement places constraints on models of inflation.

Erratum: “Discovery of Radio-Loud Broad Absorption Line Quasars Using Ultraviolet Excess and Deep Radio Selection” (ApJ, 505, L7 [1998])

The Astrophysical Journal American Astronomical Society 571:2 (2002) l191-l191

Authors:

MS Brotherton, W van Breugel, RJ Smith, BJ Boyle, T Shanks, SM Croom, L Miller, RH Becker

Estimate of the Cosmological Bispectrum from the MAXIMA-1 Cosmic Microwave Background Map

Physical Review Letters 88 (2002) 241302 4pp

Authors:

P Ferreira, M. Santos, S. Hanany, J. Magueijo

Observable consequences of cold clouds as dark matter

Monthly Notices of the Royal Astronomical Society 332:2 (2002)

Authors:

E Kerins, J Binney, J Silk

Abstract:

Cold, dense clouds of gas have been proposed to explain the dark matter in Galactic haloes, and have also been invoked in the Galactic disc as an explanation for the excess faint submillimetre sources detected by SCUBA. Even if their dust-to-gas ratio is only a small percentage of that in conventional gas clouds, these dense systems would be opaque to visible radiation. We examine the possibility that the data sets of microlensing experiments searching for massive compact halo objects can also be used to search for occultation signatures by such clouds. We compute the rate and time-scale distribution of stellar transits by clouds in the Galactic disc and halo. We find that, for cloud parameters typically advocated by theoretical models, thousands of transit events should already exist within microlensing survey data sets. We examine the seasonal modulation in the rate caused by the Earth's orbital motion and find it provides an excellent probe of whether detected clouds are of disc or halo origin.

Clustering in the 2dF QSO Redshift Survey

ArXiv astro-ph/0205039 (2002)

Authors:

SM Croom, BJ Boyle, NS Loaring, L Miller, P Outram, T Shanks, RJ Smith, F Hoyle

Abstract:

We present clustering results from the 2dF QSO Redshift Survey (2QZ) which currently contains over 20,000 QSOs at z<3. The two-point correlation function of QSOs averaged over the entire survey (~1.5) is found to be similar to that of local galaxies. When sub-dividing the sample as a function of redshift, we find that for an Einstein-de Sitter universe QSO clustering is constant (in comoving coordinates) over the entire redshift range probed by the 2QZ, while in a universe with Omega_0=0.3 and Lambda_0=0.7 there is a marginal increase in clustering with redshift. Sub-dividing the 2QZ on the basis of apparent magnitude we find only a slight difference between the clustering of QSOs of different apparent brightness, with the brightest QSOs having marginally stronger clustering. We have made a first measurement of the redshift space distortion of QSO clustering, with the goal of determining the value of cosmological parameters (in partcular Lambda_0) from geometric distortions. The current data do not allow us to discriminate between models, however, in combination with constraints from the evolution of mass clustering we find Omega_0=1-Lambda_0=0.23 +0.44-0.13 and beta(z~1.4)=0.39 +0.18-0.17. The full 2QZ data set will provide further cosmological constraints.