C-BASS

The Cosmic Background Imager 2

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 418:4 (2011) 2720-2729

Authors:

Angela C Taylor, Michael E Jones, James R Allison, Emmanouil Angelakis, J Richard Bond, Leonardo Bronfman, Ricardo Bustos, Richard J Davis, Clive Dickinson, Jamie Leech, Brian S Mason, Steven T Myers, Timothy J Pearson, Anthony CS Readhead, Rodrigo Reeves, Martin C Shepherd, Jonathan L Sievers

The Cosmic Background Imager 2

Monthly Notices of the Royal Astronomical Society 418:4 (2011) 2720-2729

Authors:

AC Taylor, ME Jones, JR Allison, E Angelakis, JR Bond, L Bronfman, R Bustos, RJ Davis, C Dickinson, J Leech, BS Mason, ST Myers, TJ Pearson, ACS Readhead, R Reeves, MC Shepherd, JL Sievers

Abstract:

We describe an upgrade to the Cosmic Background Imager instrument to increase its surface brightness sensitivity at small angular scales. The upgrade consisted of replacing the 13 0.9-m antennas with 1.4-m antennas incorporating a novel combination of design features, which provided excellent sidelobe and spillover performance for low manufacturing cost. Off-the-shelf spun primaries were used, and the secondary mirrors were oversized and shaped relative to a standard Cassegrain in order to provide an optimum compromise between aperture efficiency and low spillover lobes. Low-order distortions in the primary mirrors were compensated for by custom machining of the secondary mirrors. The secondaries were supported on a transparent dielectric foam cone to minimize scattering. The antennas were tested in the complete instrument, and the beam shape and spillover noise contributions were as expected. We demonstrate the performance of the telescope and the intercalibration with the previous system using observations of the Sunyaev-Zel'dovich effect in the cluster Abell 1689. The enhanced instrument has been used to study the cosmic microwave background, the Sunyaev-Zel'dovich effect and diffuse Galactic emission. © 2011 The Authors. Monthly Notices of the Royal Astronomical Society © 2011 RAS.

A 2-20 GHz Analog Lag-Correlator for Radio Interferometry

ArXiv e-prints (2011)

Authors:

CM Holler, ME Jones, AC Taylor, AI Harris, SA Maas

A Circularly Symmetric Antenna Design With High Polarization Purity and Low Spillover

ArXiv 1111.2702 (2011)

Authors:

CM Holler, AC Taylor, ME Jones, OG King, SJC Muchovej, MA Stevenson, RJ Wylde, CJ Copley, RJ Davis, TJ Pearson, ACS Readhead

Abstract:

We describe the development of two circularly symmetric antennas with high polarization purity and low spillover. Both were designed to be used in an all-sky polarization and intensity survey at 5 GHz (the C-Band All-Sky Survey, C-BASS). The survey requirements call for very low levels of cross-polar leakage and far-out sidelobes. Two different existing antennas, with 6.1-m and 7.6-m diameter primaries, were adapted by replacing the feed and secondary optics, resulting in identical beam performances of 0.73deg FWHM, cross-polarization better than -50 dB, and far-out sidelobes below -70 dB. The polarization purity was realized by using a symmetric low-loss dielectric foam support structure for the secondary mirror, avoiding the need for secondary support struts. Ground spill-over was largely reduced by using absorbing baffles around the primary and secondary mirrors, and by the use of a low-sidelobe profiled corrugated feedhorn. The 6.1-m antenna and receiver have been completed and test results show that the optics meet their design goals.

First season quiet observations: Measurements of cosmic microwave background polarization power spectra at 43 GHz in the multipole range 25 ≤ ℓ ≤ 475

Astrophysical Journal 741:2 (2011)

Authors:

C Bischoff, A Brizius, I Buder, Y Chinone, K Cleary, RN Dumoulin, A Kusaka, R Monsalve, SK Næss, LB Newburgh, R Reeves, KM Smith, IK Wehus, JA Zuntz, JTL Zwart, L Bronfman, R Bustos, SE Church, C Dickinson, HK Eriksen, PG Ferreira, T Gaier, JO Gundersen, M Hasegawa, M Hazumi, KM Huffenberger, ME Jones, P Kangaslahti, DJ Kapner, CR Lawrence, M Limon, J May, JJ McMahon, AD Miller, H Nguyen, GW Nixon, TJ Pearson, L Piccirillo, SJE Radford, ACS Readhead, JL Richards, D Samtleben, M Seiffert, MC Shepherd, ST Staggs, O Tajima, KL Thompson, K Vanderlinde, R Williamson, B Winstein

Abstract:

The Q/U Imaging ExperimenT (QUIET) employs coherent receivers at 43GHz and 94GHz, operating on the Chajnantor plateau in the Atacama Desert in Chile, to measure the anisotropy in the polarization of the cosmic microwave background (CMB). QUIET primarily targets the B modes from primordial gravitational waves. The combination of these frequencies gives sensitivity to foreground contributions from diffuse Galactic synchrotron radiation. Between 2008 October and 2010 December, over 10,000hr of data were collected, first with the 19 element 43 GHz array (3458hr) and then with the 90 element 94 GHz array. Each array observes the same four fields, selected for low foregrounds, together covering ≈1000 deg2. This paper reports initial results from the 43 GHz receiver, which has an array sensitivity to CMB fluctuations of 69μK√s. The data were extensively studied with a large suite of null tests before the power spectra, determined with two independent pipelines, were examined. Analysis choices, including data selection, were modified until the null tests passed. Cross-correlating maps with different telescope pointings is used to eliminate a bias. This paper reports the EE, BB, and EB power spectra in the multipole range ℓ = 25-475. With the exception of the lowest multipole bin for one of the fields, where a polarized foreground, consistent with Galactic synchrotron radiation, is detected with 3σ significance, the E-mode spectrum is consistent with the ΛCDM model, confirming the only previous detection of the first acoustic peak. The B-mode spectrum is consistent with zero, leading to a measurement of the tensor-to-scalar ratio of r = 0.35+1.06-0.87. The combination of a new time-stream "double-demodulation" technique, side-fed Dragonian optics, natural sky rotation, and frequent boresight rotation leads to the lowest level of systematic contamination in the B-mode power so far reported, below the level of r = 0.1. © 2011. The American Astronomical Society. All rights reserved.