M. C. Runyan scite author profile

In this paper, we present results from the complete set of cosmic microwave background (CMB) radiation temperature anisotropy observations made with the Arcminute Cosmology Bolometer Array Receiver (ACBAR) operating at 150 GHz. We include new data from the final 2005 observing season, expanding the number of detector-hours by 210% and the sky coverage by 490% over that used for the previous ACBAR release. As a result, the band-power uncertainties have been reduced by more than a factor of two on angular scales encompassing the third to fifth acoustic peaks as well as the damping tail of the CMB power spectrum. The calibration uncertainty has been reduced from 6% to 2.1% in temperature through a direct comparison of the CMB anisotropy measured by ACBAR with that of the dipole-calibrated WMAP5 experiment. The measured power spectrum is consistent with a spatially flat, ΛCDM cosmological model. We include the effects of weak lensing in the power spectrum model computations and find that this significantly improves the fits of the models to the combined ACBAR+WMAP5 power spectrum. The preferred strength of the lensing is consistent with theoretical expectations. On fine angular scales, there is weak evidence (1.1σ) for excess power above the level expected from primary anisotropies. We expect any excess power to be dominated by the combination of emission from dusty protogalaxies and the Sunyaev-Zel'dovich effect (SZE). However, the excess observed by ACBAR is significantly smaller than the excess power at ℓ > 2000 reported by the CBI experiment operating at 30 GHz. Therefore, while it is unlikely that the CBI excess has a primordial origin; the combined ACBAR and CBI results are consistent with the source of the CBI excess being either the SZE or radio source contamination.

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High‐Resolution Observations of the Cosmic Microwave Background Power Spectrum with ACBAR

Kuo

Ade

Bock

et al. 2004

ApJ

335

282

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Observations of High‐Redshift X‐Ray Selected Clusters with the Sunyaev‐Zel’dovich Array

Muchovej

Mroczkowski

Carlstrom

et al. 2007

ApJ

117

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We report measurements of the Sunyaev-Zel'dovich (SZ) effect in three highredshift (0.89 ≤ z ≤ 1.03), X-ray selected galaxy clusters. The observations were obtained at 30 GHz during the commissioning period of a new, eight-element interferometer -the Sunyaev-Zel'dovich Array (SZA) -built for dedicated SZ effect observations. The SZA observations are sensitive to angular scales larger than those subtended by the virial radii of the clusters. Assuming isothermality and hydrostatic equilibrium for the intracluster medium, and gas-mass fractions consistent with those for clusters at moderate redshift, we calculate electron temperatures, gas masses, and total cluster masses from the SZ data. The SZderived masses, integrated approximately to the virial radii, are 1.9 +0.5 −0.4 × 10 14 M ⊙ for Cl J1415.1+3612, 3.4 +0.6 −0.5 × 10 14 M ⊙ for Cl J1429.0+4241 and 7.2 +1.3 −0.9 × 10 14 M ⊙ for Cl J1226.9+3332. The SZ-derived quantities are in good agreement with the cluster properties derived from X-ray measurements.Subject headings: cosmology: observations -galaxies: individual (NGC5529) -clusters: individual (Cl J1415.1+3612, Cl J1429.0+4241, Cl J1226.9+3332) -Sunyaev-Zel'dovich Effect -cosmic microwave background -techniques: interferometric

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HAWC+, the Far-Infrared Camera and Polarimeter for SOFIA

Harper

Runyan

Dowell

et al. 2018

J. Astron. Instrum.

137

115

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High-resolution Airborne Wide-band Camera (HAWC[Formula: see text]) is the facility far-infrared imager and polarimeter for SOFIA, NASA’s Stratospheric Observatory for Infrared Astronomy. It is designed to cover the portion of the infrared spectrum that is completely inaccessible to ground-based observatories and which is essential for studies of astronomical sources with temperatures between tens and hundreds of degrees Kelvin. Its ability to make polarimetric measurements of aligned dust grains provides a unique new capability for studying interstellar magnetic fields. HAWC[Formula: see text] began commissioning flights in April 2016 and was accepted as a facility instrument in early 2018. In this paper, we describe the instrument, its operational procedures, and its performance on the observatory.

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Peculiar Velocity Limits from Measurements of the Spectrum of the Sunyaev‐Zeldovich Effect in Six Clusters of Galaxies

Benson

Church

Ade

et al. 2003

ApJ

107

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We have made measurements of the Sunyaev-Zel'dovich (SZ) effect in six galaxy clusters at z > 0.2 using the Sunyaev-Zel'dovich Infrared Experiment (SuZIE II) in three frequency bands between 150 and 350 GHz. Simultaneous multi-frequency measurements have been used to distinguish between thermal and kinematic components of the SZ effect, and to significantly reduce the effects of variations in atmospheric emission which can otherwise dominate the noise. We have set limits to the peculiar velocities of each cluster with respect to the Hubble flow, and have used the cluster sample to set a 95% confidence limit of < 1410 km s −1 to the bulk flow of the intermediate-redshift universe in the direction of the CMB dipole. This is the first time that SZ measurements have been used to constrain bulk flows. We show that systematic uncertainties in peculiar velocity determinations from the SZ effect are likely to be dominated by submillimeter point sources and we discuss the level of this contamination.

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M. C. Runyan

High-Resolution CMB Power Spectrum From the Complete Acbar Data Set

High‐Resolution Observations of the Cosmic Microwave Background Power Spectrum with ACBAR

Observations of High‐Redshift X‐Ray Selected Clusters with the Sunyaev‐Zel’dovich Array

HAWC+, the Far-Infrared Camera and Polarimeter for SOFIA

Peculiar Velocity Limits from Measurements of the Spectrum of the Sunyaev‐Zeldovich Effect in Six Clusters of Galaxies

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