|
Cosmic Background
Imager |
Conference Presentations and Theses
Abstracts from
Smithsonian/NASA ADS Astronomy
Abstract Service
| Title: |
|
Interferometric polarimetry of the
cosmic microwave background: Methodology |
| Authors: |
|
Myers, S. T.;
Sievers, J. L.;
Bond, J. R.;
Contaldi, C. R.;
Mason, B. S.;
Pearson, T. J.;
Readhead, A. C. S. |
| Affiliation: |
|
AA(National Radio Astronomy
Observatory, P.O. Box O, Socorro, NM 87801, United States),
AB(Canadian Institute for Theoretical Astrophysics, 60 St. George
St., Toronto, Ont., Canada M5S 3H8), AC(Canadian Institute for
Theoretical Astrophysics, 60 St. George St., Toronto, Ont., Canada
M5S 3H8), AD(Theoretical Physics, Blackett Laboratory, Imperial
College, London SW7 2BZ, UK), AE(National Radio Astronomy
Observatory, 520 Edgemont Road, Charlottesville, VA 22903-2475,
United States), AF(Astronomy, Caltech 105-24, Pasadena, CA 91125,
United States), AG(Astronomy, Caltech 105-24, Pasadena, CA 91125,
United States) |
| Publication: |
|
New Astronomy Reviews, Volume 50,
Issue 11-12, p. 951-959. (NewAR
Homepage) |
| Publication Date: |
|
12/2006 |
| Origin: |
|
ELSEVIER |
| Abstract
Copyright: |
|
Elsevier B.V. |
| DOI: |
|
10.1016/j.newar.2006.09.025 |
| Bibliographic
Code: |
|
2006NewAR..50..951M |
Abstract
Interferometry has long been used in radio astronomy to enable
imaging of astronomical sources with angular resolutions exceeding
the diffraction limit of a single aperture. In the past decade,
interferometry of the CMB has been carried out with instruments
such as the CBI, DASI and VSA which exploited the inherent
instrumental stability and simplicity of ell-space analysis of
interferometer data. The practice of interferometric polarimetry
has been particularly well-developed in the radio astronomical
community and DASI and CBI were able to measure the polarization of
the CMB over the multipole range 200 < l < 1500. In this
talk, I discuss the theory of interferometry and the mathematics of
CMB interferometric polarimetry, using the recent polarization
observations of the Cosmic Background Imager (CBI) as an example.
Topics will also include description of the data pipeline, handling
of contaminating signals and sources, and the construction of
optimal maps. I will conclude with the possibility of future CMB
interferometers with kilo-element arrays and mega-pixel imaging.
| Title: |
|
Polarization Spectrum of CMB Obtained
from the Cosmic Background Imager |
| Authors: |
|
Reeves, R. A.;
Bustos, R.;
Torres, S.;
Readhead, A. |
| Affiliation: |
|
AA(Departamento de Ingeniería
Eléctrica, Universidad de Concepción,
Concepción, Chile.) |
| Publication: |
|
XI IAU Regional Latin American
Meeting of Astronomy (Eds. L. Infante & M. Rubio) Revista
Mexicana de Astronomía y Astrofísica (Serie de
Conferencias) Vol. 26, pp. 121-122 (2006) (RMxAC Homepage) |
| Publication Date: |
|
06/2006 |
| Origin: |
|
RMXAA |
| Keywords: |
|
Cosmic Microwave Background,
Cosmology: Observations |
| Abstract
Copyright: |
|
(C) 2006; Instituto de
Astronomía, Universidad Nacional Autónoma de
México |
| Bibliographic
Code: |
|
2006RMxAC..26..121R |
Abstract
We present the estimated angular power spectrum of the polarized
CMB emission by using the Cosmic Background Imager (CBI). Dedicated
CMB observations were carried out from September 2002 to April
2005, providing enough data to extract an unprecedent EE power
spectrum with an overall 10sigma detection of polarization. The
peak-dip pattern of the EE spectrum and its phase shift with the TT
power spectrum confirm important aspects of the primordial physics
of the early universe as inferred from the standard cosmological
model.
| Title: |
|
The High-ell Excess In The CBI CMB
Power Spectrum |
| Authors: |
|
Sievers, Jonathan L.;
CBI Collaboration |
| Affiliation: |
|
AA(CITA, Canada), AB() |
| Publication: |
|
American Astronomical Society Meeting
208, #27.04 |
| Publication Date: |
|
06/2006 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2006: American Astronomical
Society |
| Bibliographic
Code: |
|
2006AAS...208.2704S |
Abstract
Unexpectedly high power is observed in the Cosmic Microwave
Background power spectrum on small angular scales (ell> 2000).
Complementary optical and radio measurements should help constrain
the source of the excess. We discuss the current state and
follow-up observations of the high-ell excess, focusing in
particular on data from the Cosmic Background Imager and follow-up
data taken with the Canada-France-Hawaii telescope and the Green
Bank Telescope.
| Title: |
|
A New Radio Emission Mechanism in the
ISM |
| Authors: |
|
Casassus, S. |
| Publication: |
|
The Cool Universe: Observing Cosmic
Dawn, ASP Conference Series, Vol. 344, Proceedings of the
conference held 4-8 October, 2004 in Valparaiso, Chile. Edited by
C. Lidman and D. Alloin. San Francisco: Astronomical Society of the
Pacific, 2005., p.140 |
| Publication Date: |
|
12/2005 |
| Origin: |
|
ASP |
| Bibliographic
Code: |
|
2005ASPC..344..140C |
Abstract
A byproduct of experiments designed to map the CMB is the recent
detection of a new component of foreground Galactic emission. The
anomalous foreground at 10--30 GHz, unexplained by traditional
emission mechanisms, correlates with 100 micron dust emission, and
is thus presumably due to dust.
Is the anomalous foreground ubiquitous in the Galaxy? We present
evidence obtained with the CBI experiment supporting the existence
of the new component in specific objects, in the form of a 31 GHz
excess over free-free emission in H II regions, planetary nebulae,
and a surprisingly radio-bright dark cloud.
| Title: |
|
The CBI Project and Latest
Results |
| Authors: |
|
Bustos, R. |
| Publication: |
|
The Cool Universe: Observing Cosmic
Dawn, ASP Conference Series, Vol. 344, Proceedings of the
conference held 4-8 October, 2004 in Valparaiso, Chile. Edited by
C. Lidman and D. Alloin. San Francisco: Astronomical Society of the
Pacific, 2005., p.37 |
| Publication Date: |
|
12/2005 |
| Origin: |
|
ASP |
| Bibliographic
Code: |
|
2005ASPC..344...37B |
Abstract
The CBI (Cosmic Background Imager) has been operating since 1999 on
the Chajnantor Plateau in the 2nd region of Chile. In 2000, the CBI
obtained the first high-resolution image of the anisotropies of the
CMB that correspond to the seeds that gave rise to clusters of
galaxies. Since 2002, the CBI has been observing polarization of
the CMB, obtaining the first polarization spectrum. Here we outline
the main aspects of the CBI telescope and present some recent
results.
| Title: |
|
CMB Foreground Surveys with the New
Sensitive Wideband Continuum Backend on the Green Bank
Telescope |
| Authors: |
|
Mason, B.;
Weintraub, L.;
Pearson, T.;
Sievers, J.;
Shepherd, M.;
Readhead, A. |
| Affiliation: |
|
AA(NRAO), AB(Caltech), AC(Caltech),
AD(CITA), AE(Caltech), AF(Caltech) |
| Publication: |
|
American Astronomical Society Meeting
207, #170.13; Bulletin of the American Astronomical Society, Vol.
37, p.1429 |
| Publication Date: |
|
12/2005 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2005: American Astronomical
Society |
| Bibliographic
Code: |
|
2005AAS...20717013M |
Abstract
The California Institute of Technology and the National Radio
Astronomy Observatory have constructed a new continuum backend for
use with the 26 to 40 GHz pseudo-correlation receiver on the Green
Bank Telescope (GBT). The backend simultaneously measures RF power
across the full 14 GHz receiver band in two feeds and two
polarizations, and is capable of executing a rapid beam switch to
suppress the effects of receiver gain fluctuations. Combined with
the GBT's large and excellent surface the CCB will give
unprecedented cm-wave sensitivity to study CMB discrete-source
foregrounds and very small-scale anisotropies. We present an
overview of the instrument and our early science program, which
aims to more precisely measure the small-scale excess power seen by
the Cosmic Background Imager.
| Title: |
|
Results of CMB Observations with the
Cosmic Background Imager |
| Authors: |
|
Sievers, J.;
CBI Collaboration |
| Affiliation: |
|
AA(CITA) |
| Publication: |
|
American Astronomical Society Meeting
207, #100.07; Bulletin of the American Astronomical Society, Vol.
37, p.1329 |
| Publication Date: |
|
12/2005 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2005: American Astronomical
Society |
| Bibliographic
Code: |
|
2005AAS...20710007S |
Abstract
The CBI is a 13-element interferometer operating between 26 and 36
GHz at an altitude of 5080 meters in the Chilean Andes, covering a
range in l between 400 and 3500. It has been observing the Cosmic
Microwave Background since January 2000, and in a
polarization-optimized configuration since September 2002. We
discuss the latest results from CBI observations of the CMB in
total intensity and polarization, including the most significant
detection of CMB E-mode polarization to date, and their
cosmological implications. When the CBI EE spectrum is combined
with the lower-l DASI and Boomerang EE spectra, the angular scale
of the power spectrum is determined to better than 3 independendent
of TT measurements, a powerful consistency check on the standard
model. The polarization data are consistent with adiabatic-only
fluctuations, and are highly inconsistent with models that grossly
modify the heights or locations of the Doppler peaks, such as would
happen if there were significant isocurvature fluctuations.
This work is supported by NSERC, the Canadian Institute for
Advance Research, the NSF, Barbara and Stanley Rawn, Jr., Rochus
Vogt, and Oxford University
Abstract
The CBI allows imaging, in both total intensity and polarization,
of a wide range of Galactic phenomena on angular scales of 5-30
arcmin, in the relatively unexplored frequency range 26-36 GHz. We
have made observations of a variety of objects and regions in the
Galaxy; these include molecular dust clouds, supernova remnants and
HII regions. By utilizing 10 1-GHz channels and polarization
imaging capability we investigate the nature of the Galactic
emissions (synchrotron and free-free emission) and in particular,
the anomalous dust-correlated emission whose origin remains
elusive. Detailed comparisons are made with multi-frequency data to
provide further spectral and morphological information on the
diffuse Galactic emissions which are important CMB foregrounds,
particularly for polarization studies. The relevance of these
results for current and future CMB experiments is discussed.
This work is supported by the NSF, Barbara and Stanley Rawn,
Jr., Rochus Vogt, Oxford University and Manchester University.
| Title: |
|
Observations of the
Sunyaev-Zel'dovich effect using the CBI |
| Authors: |
|
Taylor, A. C.;
CBI Collaboration |
| Affiliation: |
|
AA(University of Oxford) |
| Publication: |
|
American Astronomical Society Meeting
207, #41.04; Bulletin of the American Astronomical Society, Vol.
37, p.1226 |
| Publication Date: |
|
12/2005 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2005: American Astronomical
Society |
| Bibliographic
Code: |
|
2005AAS...207.4104T |
Abstract
The Cosmic Background Imager (CBI) is an interferometer primarily
designed to image primordial temperature and polarization
anisotropies in the cosmic microwave background (CMB) on small
angular scales in the frequency range 26-36 GHz. It has also been
used to observe the Sunyaev-Zel'dovich (SZ) effect in galaxy
clusters, and we will present recent SZ observations with the CBI.
In 2006 we plan to upgrade the CBI by increasing the antenna size
from 0.9 to 1.4m. As well as increasing the sensitivity to CMB
fluctuations on small angular scales (l > 900), this upgrade
will make the CBI much more suited to SZ observations, by both
increasing the flux sensitivity and reducing the relative
contamination from primordial CMB anisotropies. We will present
plans to make deep SZ measurements of an X-ray flux-limited sample
of clusters for which deep XMM data are also being obtained. This
well-defined sample will be used to study the relationship between
measured SZ fluxes and X-ray-determined masses and temperatures,
and hence help to calibrate the cluster properties that will be
measured by upcoming SZ surveys.
This work is supported by the NSF, Barbara and Stanley Rawn,
Jr., Rochus Vogt, Oxford University and the Royal Society.
| Title: |
|
A New Component in the Radio Continua
of PNe |
| Authors: |
|
Casassus, S.;
Nyman, L.-Å.;
Pearson, T. J.;
Readhead, A. C. |
| Affiliation: |
|
AA(Departamento de Astronomía,
Universidad de Chile, Santiago, Casilla 36-D, Chile), AB(European
Southern Observatory, Alonso de Cordova 3107, Casilla 19001,
Santiago 19, Chile; Onsala Space Observatory, 439 92 Onsala,
Sweden), AC(Owens Valley Radio Observatory, California Institute of
Technology, Pasadena, CA 91125), AD(Owens Valley Radio Observatory,
California Institute of Technology, Pasadena, CA 91125) |
| Publication: |
|
PLANETARY NEBULAE AS ASTRONOMICAL
TOOLS: International Conference on Planetary Nebulae as
Astronomical Tools. AIP Conference Proceedings, Volume 804, pp.
204-207 (2005). (AIPC
Homepage) |
| Publication Date: |
|
11/2005 |
| Origin: |
|
STI |
| NASA/STI Keywords: |
|
planetary nebulae, radiosources
(astronomical), Galaxy |
| Abstract
Copyright: |
|
(c) 2005: American Institute of
Physics |
| DOI: |
|
10.1063/1.2146273 |
| Bibliographic
Code: |
|
2005AIPC..804..204C |
Abstract
A byproduct of experiments designed to map the CMB is the recent
detection of a new component of foreground galactic emission. The
anomalous foreground at 10-30 GHz, unexplained by traditional
emission mechanisms, correlates with 100 mum dust emission, and is
thus presumably due to dust.
Is the anomalous foreground ubiquitous in the Galaxy? I will
present evidence obtained with the CBI and SIMBA+SEST supporting
the existence of the new component in the ISM at large, and in
specific objects, in the form of a 31 GHz excess over free-free
emission in PNe.
| Title: |
|
The Sunyaev-Zeldovich Effect Imaging
and Interferometry: BIMA-CBI-OVRO State of the Art and Future
Prospects |
| Authors: |
|
Myers, Steven T. |
| Publication: |
|
New Cosmological Data and the Values
of the Fundamental Parameters, Proceedings of IAU Symposium #201,
held 7-11 August 2000 at Manchester, United Kingdom. Edited by A.
Lasenby and A. Wilkinson. San Francisco, CA: Astronomical Society
of the Pacific (ASP), 2005., p.219 |
| Publication Date: |
|
00/2005 |
| Origin: |
|
ADS |
| Bibliographic
Code: |
|
2005IAUS..201..219M |
Abstract
Not Available
| Title: |
|
The Cosmic Background Imager |
| Authors: |
|
Pearson, T. J.;
Mason, B. S.;
Padin, S.;
Readhead, A. C. S.;
Shepherd, M. C.;
Sievers, J.;
Udomprasert, P. S.;
Cartwright, J. K. |
| Publication: |
|
New Cosmological Data and the Values
of the Fundamental Parameters, Proceedings of IAU Symposium #201,
held 7-11 August 2000 at Manchester, United Kingdom. Edited by A.
Lasenby and A. Wilkinson. San Francisco, CA: Astronomical Society
of the Pacific (ASP), 2005., p.23 |
| Publication Date: |
|
00/2005 |
| Origin: |
|
ADS |
| Bibliographic
Code: |
|
2005IAUS..201...23P |
Abstract
Not Available
| Title: |
|
Data analysis of and results from
observations of the cosmic microwave background with the Cosmic
Background Imager |
| Authors: |
|
Sievers, Jonathan Leroy |
| Affiliation: |
|
California Institute of Technology,
United States -- California |
| Publication: |
|
Ph.D dissertation, 2004. 155 pages;
United States -- California: California Institute of Technology;
2004. Publication Number: AAT 3151388. DAI-B 65/10, p. 5191, Apr
2005 |
| Publication Date: |
|
12/2004 |
| Category: |
|
Astronomy, Astrophysics |
| Origin: |
|
UMI |
| Keywords: |
|
Cosmic microwave background, Cosmic
Background Imager, Power spectrum, Hubble constant |
| Comment: |
|
Publication Number: AAT 3151388;
ISBN: 0496114530; Advisor: Readhead, Anthony |
| Bibliographic
Code: |
|
2004PhDT........30S |
Abstract
We present results from observations of the Cosmic Microwave
Background (CMB) with the Cosmic Background Imager (CBI), a
sensitive 13-element interferometer located high in the Chilean
Andes. We also discuss methods of analyzing the data from the CBI,
including an improved way of measuring the true power spectrum
using maximum likelihood estimation. This improved method leads to
a saving of a factor of two in memory usage, and an increase in
speed of order the number of points in the spectrum. The initial
results are discussed, in which the fall-off in power at ell >
1000 (the "damping tail") was first observed. We also present the
results from the first year of observations with the CBI, and
discuss cosmological interpretations both alone and in concert with
the results from other experiments. These provide tight constraints
on cosmological parameters, including a Hubble constant of 69 +/- 4
km/s/Mpc, an age of the universe of 13.7 +/- 0.2 billion years, and
a density of dark energy of 0.70 +/- 0.05 of the critical density
of the universe. Finally, we discuss an alternate method of data
compression, with great flexibility in what information is kept,
while being computationally tractable. We then apply this method to
the CBI data to constrain the potential emission from foreground
contaminants contributing to the observed CMB radiation. We find
that the data is consistent with zero foreground, with a maximum
allowed foreground contribution between about 8% and 12% of the
total signal (at an ell of 600 and frequency of 30 GHz), depending
on the spectral index of foreground emission.
| Title: |
|
Implications of the CBI Polarization
Spectrum |
| Authors: |
|
Sievers, J. L.;
CBI |
| Affiliation: |
|
AA(CITA) |
| Publication: |
|
American Astronomical Society Meeting
205, #73.07; Bulletin of the American Astronomical Society, Vol.
36, p.1470 |
| Publication Date: |
|
12/2004 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2004: American Astronomical
Society |
| Bibliographic
Code: |
|
2004AAS...205.7307S |
Abstract
The Cosmic Background Imager (CBI), a radio interferometer located
in the Chilean Andes, has recently published a spectrum of the
polarized power spectrum of the CMB in a range of l ∼ 400-2000.
The CBI's polarization spectrum has sufficient sensitivity that it
can begin to place limits on allowed cosmological models,
independent of the total-intensity spectrum. I discuss some of
these limits, including the angular scale of the polarized spectrum
and the phase of the polarized spectrum relative to that predicted
by the total-intensity.
| Title: |
|
CMB polarization observations with
the Cosmic Background Imager |
| Authors: |
|
Pearson, T. J.;
CBI |
| Affiliation: |
|
AA(Caltech) |
| Publication: |
|
American Astronomical Society Meeting
205, #73.06; Bulletin of the American Astronomical Society, Vol.
36, p.1469 |
| Publication Date: |
|
12/2004 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2004: American Astronomical
Society |
| Bibliographic
Code: |
|
2004AAS...205.7306P |
Abstract
The Cosmic Background Imager (CBI), an interferometer operating in
the 26--36 GHz band, has been making observations of the
polarization of the microwave background since September 2002. The
EE power spectrum of the CMB has been measured at multipoles up to
l 1000, and upper limits have been placed on the EE power at 1000
< l < 2000. The spectrum is in good agreement with earlier
measurements from DASI at lower l and with the predictions of
standard Lambda CDM models, in which the polarization is generated
by Thomson scattering during recombination. The BB power spectrum
is consistent with zero as expected in the standard models. The
work was supported by NSF AST-0206416.
| Title: |
|
CMB Polarization Data Analysis for
the Cosmic Background Imager |
| Authors: |
|
Myers, S. T.;
CBI |
| Affiliation: |
|
AA(NRAO) |
| Publication: |
|
American Astronomical Society Meeting
205, #69.12; Bulletin of the American Astronomical Society, Vol.
36, p.1461 |
| Publication Date: |
|
12/2004 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2004: American Astronomical
Society |
| Bibliographic
Code: |
|
2004AAS...205.6912M |
Abstract
The Cosmic Background Imager (CBI) is a 13-element interferometer
observing at a freqency of 26--36 GHz from the high-altitude ALMA
site in Chile. Since 2002, it has observed the polarization of the
cosmic microwave background (CMB) radiation. In this poster, we
describe the data analysis techniques used to process the data and
measure the angular power spectrum of the CMB polarization. The CBI
observes in R and L circular polarizations, and the
cross-correlations between these are directly related to the E and
B polarization modes fundamental to cosmological model predictions
for the CMB. The CBI processing pipeline employs a novel gridding
scheme in the Fourier domain which optimally compresses the large
number of data samples from the mosaic scanning patterns used in
the CBI observations. Processing was carried out on the
512-processor McKenzie cluster at the Canadian Institute for
Theoretical Astrophysics.
| Title: |
|
The Hubble Constant Derived from the
Sunyaev-Zel'dovich Effect |
| Authors: |
|
Stilp, A. M.;
Myers, S. T. |
| Affiliation: |
|
AA(University of
Wisconsin-Madison/NRAO), AB(NRAO) |
| Publication: |
|
American Astronomical Society Meeting
205, #69.07; Bulletin of the American Astronomical Society, Vol.
36, p.1460 |
| Publication Date: |
|
12/2004 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2004: American Astronomical
Society |
| Bibliographic
Code: |
|
2004AAS...205.6907S |
Abstract
One powerful way to determine the distance to galaxy clusters is
the combination of the Sunyaev-Zel'dovich Effect (SZE) with thermal
bremsstrahlung from hot gas in the intracluster medium. This
technique allows a measurement independent of the cosmic distance
ladder. We will present an analysis of two low redshift (z <
0.1) galaxy clusters, A3266 and A3558, using the above method. By
combining SZE observations from the Cosmic Background Imager (CBI)
with results of previously-published X-ray data, we fit models of
cluster gas structure to the data using both a maximum likelihood
method and a Markov Chain Monte Carlo (MCMC) algorithm. The
best-fit models yield a measurement of distance to the galaxy
clusters, and a value for H0 can be calculated from the
best-fit distances and published redshift data. We obtained a
result of H0 = 65±14 km s-1
Mpc-1 as an average of the H0 values for each
cluster, which is consistent with the value of 72±5 km
s-1 Mpc-1 measured by WMAP. We will discuss
the application of the MCMC algorithm to SZE and X-ray data as well
as display the results of our own analysis using this technique.
This work was supported by a NSF-REU site grant to Associated
Universities, Inc./National Radio Astronomy Observatories.
| Title: |
|
Cosmic Background Imager Observations
of the Temperature and Polarization of the CMB |
| Authors: |
|
Myers, S. T.;
CBI Collaboration |
| Affiliation: |
|
AA(NRAO) |
| Publication: |
|
American Astronomical Society Meeting
204, #91.07; Bulletin of the American Astronomical Society, Vol.
36, p.822 |
| Publication Date: |
|
05/2004 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2004: American Astronomical
Society |
| Bibliographic
Code: |
|
2004AAS...204.9107M |
Abstract
The Cosmic Background Imager (CBI) is an interferometer dedicated
to observations of the Cosmic Microwave Background (CMB). The CBI
has 13 90-cm antennas mounted on a 5.5-m platform and observes in
the band 26-36 GHz from the Chilean Andes near San Pedro de Atacama
(alt. 5000m). The CBI has been in operation since 1999, and has
produced measurements of the CMB temperature angular power spectrum
as reported in previous publications, as well as observations of
the Sunyaev-Zeldovich Effect in nearby clusters of galaxies. Since
September 2002, the CBI has been operating in a configuration
optimized for CMB polarization observations. We present the most
recent CBI results on the temperature and polarization angular
power spectra, and discuss the implications for the determination
of cosmological parameters and the discrimination between
cosmological models. Comparison and combination with other CMB
observations is also presented. The CBI is funded by the National
Science Foundation, along with the generous support of the CBI team
home institutions.
| Title: |
|
H(0) from Cosmic Background Imager
observations of the Sunyaev-Zel'dovich effect in nearby
clusters |
| Authors: |
|
Udomprasert, Patricia Simcoe |
| Affiliation: |
|
California Institute of Technology,
United States -- California |
| Publication: |
|
Ph.D dissertation, 2004. 115 pages;
United States -- California: California Institute of Technology;
2004. Publication Number: AAT 3151394. DAI-B 65/10, p. 5192, Apr
2005 |
| Publication Date: |
|
00/2004 |
| Category: |
|
Astronomy, Astrophysics |
| Origin: |
|
UMI |
| Keywords: |
|
Hubble constant, Cosmic Background
Imager, Sunyaev- Zel'dovich effect, Galaxy clusters, Cosmology |
| Comment: |
|
Publication Number: AAT 3151394;
ISBN: 049611459X; Advisor: Readhead, Anthony C. S. |
| Bibliographic
Code: |
|
2004PhDT.........3U |
Abstract
We present H 0 results from Cosmic Background Imager (CBI)
observations of the Sunyaev-Zel'dovich Effect (SZE) in 7 galaxy
clusters, A85, A399, A401, A478, A754, A1651, and A2597. These
observations are part of a program to study a complete,
volume-limited sample of low-redshift ( z < 0.1), X-ray selected
clusters. Our focus on nearby objects allows us to study a
well-defined, orientation-unbiased sample, minimizing systematic
errors due to cluster asphericity. We use density models derived
from ROSAT imaging data and temperature measurements from ASCA and
BeppoSAX spectral observations. We quantify in detail sources of
error in our derivation of H 0 , including calibration of the CBI
data, density and temperature models from the X-ray data, Cosmic
Microwave Background (CMB) primary anisotropy fluctuations, and
residuals from radio point source subtraction. From these 7
clusters we obtain a result of H 0 = [Special characters omitted.]
km s -1 Mpc -1 for an unweighted sample average. The respective
quoted errors are random and systematic uncertainties at 68%
confidence. The dominant source of error is confusion from
intrinsic anisotropy fluctuations. We present results from
simulations of an eigenmode weighting analysis that reduce the
uncertainties due to CMB in h -1/2 by ~30%.
| Title: |
|
New Results &Current Work with
the CBI |
| Authors: |
|
Mason, Brian S. |
| Publication: |
|
Multiwavelength Cosmology.
Proceedings of the "Multiwavelength Cosmology" conference, held on
Mykonos Island, Greece, 17-20 June, 2003. Edited by Manolis
Plionis. ASTROPHYSICS AND SPACE SCIENCE LIBRARY Volume 301. ISBN
1-4020-1971-8 (HB); ISBN 0-306-48570-2 (e-book). Published by
Kluwer Academic Publishers, Dordrecht, The Netherlands, 2004,
p.85 |
| Publication Date: |
|
00/2004 |
| Origin: |
|
ADS |
| Bibliographic
Code: |
|
2004muco.conf...85M |
Abstract
Not Available
| Title: |
|
Interferometric Observations of the
Cosmic Microwave Background Radiation |
| Authors: |
|
Readhead, Anthony C. S.;
Pearson, Timothy J. |
| Affiliation: |
|
AA(California Institute of
Technology), AB(California Institute of Technology) |
| Publication: |
|
Measuring and Modeling the Universe,
from the Carnegie Observatories Centennial Symposia. Published by
Cambridge University Press, as part of the Carnegie Observatories
Astrophysics Series. Edited by W. L. Freedman, 2004, p. 349. |
| Publication Date: |
|
00/2004 |
| Origin: |
|
AUTHOR |
| Bibliographic
Code: |
|
2004mmu..symp..349R |
Abstract
Radio interferometers are well suited to studies of both total
intensity and polarized intensity fluctuations of the cosmic
microwave background radiation, and they have been used
successfully in measurements of both the primary and secondary
anisotropy. Recent observations with the Cosmic Background Imager
operating in the Chilean Andes, the Degree Angular Scale
Interferometer operating at the South Pole, and the Very Small
Array operating in Tenerife have probed the primary anisotropy over
a wide range of angular scales. The advantages of interferometers
for microwave background observations of both total intensity and
polarized radiation are discussed, and the cosmological results
from these three instruments are presented. The results show that,
subject to a reasonable value for the Hubble constant, which is
degenerate with the geometry in closed models, the geometry of the
Universe is flat to high precision (∼5%) and the primordial
fluctuation spectrum is very close to the scale-invariant
Harrison-Zel'dovich spectrum. Both of these findings are concordant
with inflationary predictions. The results also show that the
baryonic matter content is consistent with that found from
primordial nucleosynthesis, while the cold dark matter component
can account for no more than ∼40 % of the energy density of the
Universe. It is a requirement of these observations, therefore,
that ∼60% of the energy content of the Universe is not related
to matter, either baryonic or nonbaryonic. This dark energy
component of the energy density is attributed to a nonzero
cosmological constant.
| Title: |
|
Modeling of the Contamination of the
Cosmic Background by Radio Sources |
| Authors: |
|
Flores, R. M.;
Mason, B. S.;
CBI Collaboration |
| Affiliation: |
|
AA(Barnard College/Columbia
University), AB(National Radio Astronomy Observatory) |
| Publication: |
|
American Astronomical Society Meeting
203, #82.01; Bulletin of the American Astronomical Society, Vol.
35, p.1333 |
| Publication Date: |
|
12/2003 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2003: American Astronomical
Society |
| Bibliographic
Code: |
|
2003AAS...203.8201F |
Abstract
Observations of the Cosmic Microwave Background (CMB) with the
Cosmic Background Imager (CBI) have revealed radio foreground
signals that limit the accuracy of measurements of the anisotropic
properties of the CMB such as the Sunyaev-Zeldovich Effect. By
comparing CBI data to NVSS (and PMN) data, accurate counts of the
number of radio sources in low redshift galaxy clusters were made.
It was determined that at 30 GHz there are 1.4 ± 0.3 sources
per square degree brighter than 30mJy in fields containing galaxy
clusters. Comparing these results to the number of radio sources at
random in the sky at 30GHz (Mason et al.) a 1.38 sigma difference
was found. We therefore do not detect a strong difference in the
number of radio sources at 30GHz in galaxy cluster fields. This
work was done in collaboration with the Cosmic Background Imager
project and with the support of the National Science Foundation and
the California Institute of Technology.
| Title: |
|
Elimination of confusing sources in
Cosmic Background Imager fields |
| Authors: |
|
Angelakis, E.;
Zensus, A.;
Krichbaum, T.;
Kraus, A.;
Readhead, A.;
Pearson, T.;
Bustos, R.;
Reeves, R. |
| Publication: |
|
Proceedings of the Second ENIGMA
Meeting, held at Porto Venere, Italy, October 11-15, 2003, Eds.: C.
M. Raiteri and M. Villata, Osservatorio Astronomico di Torino, Pino
Torinese, Italy, p. 70-79. |
| Publication Date: |
|
11/2003 |
| Origin: |
|
AUTHOR |
| Bibliographic
Code: |
|
2003enig.conf...70A |
Abstract
Not Available
| Title: |
|
Humidity above the Jovian NH3 Clouds
from Radio Measurements near 1 cm |
| Authors: |
|
Hofstadter, M.;
Readhead, T.;
Gulkis, S.;
Reeves, R. |
| Affiliation: |
|
AA(JPL), AB(Caltech), AC(JPL),
AD(Univ. de Concepcion) |
| Publication: |
|
American Astronomical Society, DPS
meeting #35, #48.07; Bulletin of the American Astronomical Society,
Vol. 35, p.1014 |
| Publication Date: |
|
05/2003 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2003: American Astronomical
Society |
| Bibliographic
Code: |
|
2003DPS....35.4807H |
Abstract
The Cosmic Background Imager (CBI) is an interferometer working in
the 26 to 36 GHz range (0.8 to 1.2 cm). Located in the Chilean
Andes at an altitude of 16,700 feet, it was designed for
cosmological studies of the cosmic microwave background. We have
used the CBI to make precise measurements of Jupiter's total flux
at radio wavelengths. By tieing CBI measurements to those of the
Wilkinson Microwave Anisotropy Probe (WMAP) satellite, we have
obtained absolute radiances with a 1-sigma uncertainty of +-1.3%.
Relative temperatures within the above frequency range are accurate
to +-0.6%.
Jupiter's spectrum at these wavelengths is dominated by the
strong NH3 inversion band. The CBI data, sampling the wings of this
absorption band, sound the atmosphere in the region of the assumed
NH3 cloud, near 1 bar. Preliminary analysis indicates the globally
averaged relative humidity of NH3 above its cloud base is in the 30
to 75% range. Uncertainty in our knowledge of the ammonia lineshape
contributes as much to this spread as the uncertainty in the data.
This result is in qualitative agreement with earlier work (for
example, Klein and Gulkis 1978, Icarus 35; Fouchet et al. 2000,
Icarus 143; de Pater et al. 2001, Icarus 149). At the meeting, we
will present our analysis of CBI and WMAP data. These data provide
some of the strongest constraints to date on the global behavior of
ammonia in its cloud-forming region.
Part of this work was carried out at the Jet Propulsion
Laboratory, California Institute of Technology, under a contract
with the National Aeronautics and Space Administration.
| Title: |
|
New Results from the Cosmic
Background Imager |
| Authors: |
|
Mason, B. S.;
CBI Collaboration |
| Affiliation: |
|
AA(NRAO) |
| Publication: |
|
American Astronomical Society Meeting
202, #54.05; Bulletin of the American Astronomical Society, Vol.
35, p.773 |
| Publication Date: |
|
05/2003 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2003: American Astronomical
Society |
| Bibliographic
Code: |
|
2003AAS...202.5405M |
Abstract
The Cosmic Background Imager (CBI) has led in the push to small
angular scale measurements of the microwave background. New results
from the CBI improve the constraints at high L as well as yielding
better resolution at low L. I discuss these results and current
activities, including the CBI polarization observing campaign.
| Title: |
|
The Cosmic Microwave Background &
Inflation, Then & Now |
| Authors: |
|
Bond, J. Richard;
Contaldi, Carlo;
Pogosyan, Dmitry;
Mason, Brian;
Myers, Steve;
Pearson, Tim;
Pen, Ue-Li;
Prunet, Simon;
Readhead, Tony;
Sievers, Jonathan |
| Affiliation: |
|
AA(CIAR Cosmology Program, Canadian
Institute for Theoretical Astrophysics, Toronto, Ontario, Canada),
AB(CIAR Cosmology Program, Canadian Institute for Theoretical
Astrophysics, Toronto, Ontario, Canada), AC(Physics Department,
University of Alberta, Edmonton, Alberta, Canada), AD(Astronomy
Department, California Institute of Technology, Pasadena,
California; National Radio Astronomy Observatory, Socorro, New
Mexico), AE(National Radio Astronomy Observatory, Socorro, New
Mexico), AF(Astronomy Department, California Institute of
Technology, Pasadena, California), AG(CIAR Cosmology Program,
Canadian Institute for Theoretical Astrophysics, Toronto, Ontario,
Canada), AH(Institut d' Astrophysique de Paris, Paris, France; CIAR
Cosmology Program, Canadian Institute for Theoretical Astrophysics,
Toronto, Ontario, Canada), AI(Astronomy Department, California
Institute of Technology, Pasadena, California), AJ(Astronomy
Department, California Institute of Technology, Pasadena,
California) |
| Publication: |
|
THEORETICAL PHYSICS: MRST 2002: A
Tribute to George Leibbrandt. AIP Conference Proceedings, Volume
646, pp. 15-33 (2002). (AIPC
Homepage) |
| Publication Date: |
|
12/2002 |
| Origin: |
|
STI |
| Keywords: |
|
cosmology, radiofrequency cosmic
radiation, supernovae, fluctuations, spectra, dark matter,
equations of state, acceleration |
| Abstract
Copyright: |
|
(c) 2002: American Institute of
Physics |
| Bibliographic
Code: |
|
2002AIPC..646...15B |
Abstract
The most recent results from the Boomerang, Maxima, DASI, CBI and
VSA CMB experiments significantly increase the case for accelerated
expansion in the early universe (the inflationary paradigm) and at
the current epoch (dark energy dominance). This is especially so
when combined with data on high redshift supernovae (SN1) and large
scale structure (LSS), encoding information from local cluster
abundances, galaxy clustering, and gravitational lensing. There are
``7 pillars of Inflation'' that can be shown with the CMB probe,
and at least 5, and possibly 6, of these have already been
demonstrated in the CMB data: (1) the effects of a large scale
gravitational potential, demonstrated with COBE/DMR in 1992-96 (2)
acoustic peaks/dips in the angular power spectrum of the radiation,
which tell about the geometry of the Universe, with the large first
peak convincingly shown with Boomerang and Maxima data in 2000, a
multiple peak/dip pattern shown in data from Boomerang and DASI
(2nd, 3rd peaks, first and 2nd dips in 2001) and from CBI (2nd,
3rd, 4th, 5th peaks, 3rd, 4th dips at 1-sigma in 2002) (3) damping
due to shear viscosity and the width of the region over which
hydrogen recombination occurred when the universe was 400000 years
old (CBI 2002) (4) the primary anisotropies should have a Gaussian
distribution (be maximally random) in almost all inflationary
models, the best data on this coming from Boomerang; (5) secondary
anisotropies associated with nonlinear phenomena subsequent to
400000 years, which must be there and may have been detected by CBI
and another experiment, BIMA. Showing the 5 ``pillars'' involves
detailed confrontation of the experimental data with theory; e.g.,
(5) compares the CBI data with predictions from two of the largest
cosmological hydrodynamics simulations ever done. DASI, Boomerang
and CBI in 2002, AMiBA in 2003, and many other experiments have the
sensitivity to demonstrate the next pillar, (6) polarization, which
must be there at the ~ 7% level. A broad-band DASI detection
consistent with inflation models was just reported. A 7th pillar,
anisotropies induced by gravity wave quantum noise, could be too
small to detect. A minimal inflation parameter set, {omegab,
omegacdm, Omegatot, OmegaQ, wQ, ns, tauC, sigma8}, is used to
illustrate the power of the current data. After marginalizing over
the other cosmic and experimental variables, we find the current
CMB+LSS+SN1 data give Omegatot =
1.00-.03+.07, consistent with (non-baroque)
inflation theory. Restricting to Omegatot = 1, we find a nearly
scale invariant spectrum, ns = 0.97-.05+.06.
The CDM density, omegacdm = Omegacdmh2 =
.12-.01+.01, and baryon density, omegab
≡ Omegabh2 = .022-.002+.003,
are in the expected range. (The Big Bang nucleosynthesis estimate
is 0.019 +/- 0.002.) Substantial dark (unclustered) energy is
inferred, OmegaQ ~ 0.68 +/- 0.05, and CMB+LSS OmegaQ values are
compatible with the independent SN1 estimates. The dark energy
equation of state, crudely parameterized by a quintessence-field
pressure-to-density ratio wQ, is not well determined by CMB+LSS (wQ
< -0.4 at 95% CL), but when combined with SN1 the resulting wQ
< -0.7 limit is quite consistent with the wQ=-1 cosmological
constant case.
| Title: |
|
Data Analysis and Cosmology with the
Cosmic Background Imager |
| Authors: |
|
Sievers, J. L.;
CBI Collaboration |
| Affiliation: |
|
AA(Caltech) |
| Publication: |
|
American Astronomical Society, 201st
AAS Meeting, #101.02; Bulletin of the American Astronomical
Society, Vol. 34, p.1269 |
| Publication Date: |
|
12/2002 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2002: American Astronomical
Society |
| Bibliographic
Code: |
|
2002AAS...20110102S |
Abstract
The Cosmic Microwave Background has become one of our fundamental
tools for understanding the global properties of the universe. It
has already yielded high-precision cosmological results, with the
promise of even more to come. The brute force CMB analysis methods
are computationally prohibitive for all but the simplest
experiments, so we have developed new analysis methods for use on
interferometric microwave background data. We apply these methods
to the data from the Cosmic Background Imager (CBI) to obtain a
power spectrum, and, both alone and in concert with other
experiments, use the power spectrum to measure fundamental
cosmological parameters. The CBI is a very sensitive 13-element
interferometer located at 16,700 feet in northern Chile that has
provided the highest resolution measurements yet of primary CMB
anisotropies.
| Title: |
|
Measuring H0 through
observations of the Sunyaev-Zeldovich Effect in Nearby Clusters
with the Cosmic Background Imager |
| Authors: |
|
Udomprasert, P. S.;
Mason, B. S.;
Readhead, A. C. S. |
| Affiliation: |
|
AA(Caltech), AB(Caltech),
AC(Caltech) |
| Publication: |
|
American Astronomical Society, 201st
AAS Meeting, #23.02; Bulletin of the American Astronomical Society,
Vol. 34, p.1142 |
| Publication Date: |
|
12/2002 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2002: American Astronomical
Society |
| Bibliographic
Code: |
|
2002AAS...201.2302U |
Abstract
We present results from the Cosmic Background Imager's program to
measure H0 with 10% accuracy through observations of the
Sunyaev-Zeldovich Effect in a complete sample of nearby (z<0.1)
clusters. We describe our sample selection and discuss the
advantages and disadvantages of studying low-z clusters over those
at higher z. The results we present here utilize density models and
isothermal temperatures from ROSAT, ASCA, and BeppoSAX
observations. We discuss possible errors from assuming isothermal
cluster gas, and we show how accurate temperature profiles from
current X-ray missions can improve the H0 measurements.
We also quantify other sources of error such as observational
noise, CMB primary anisotropy fluctuations, radio point sources,
and cluster asphericity.
| Title: |
|
High Power in the CMB Power Spectrum
from CBI Measurements at ell > 2000: |
| Authors: |
|
Sievers, Jonathan |
| Affiliation: |
|
Caltech |
| Publication: |
|
Presented at the KITP Conference: The
New Cosmology Confronts Observation, Aug 20, 2002, Kavli Institute
for Theoretical Physics, University of California, Santa
Barbara |
| Publication Date: |
|
08/2002 |
| Origin: |
|
KITP |
| Bibliographic
Code: |
|
2002ncco.confE..34S |
Abstract
Not Available
| Title: |
|
CBI, primary anisotropies |
| Authors: |
|
Readhead, Anthony;
Myers, Steve |
| Affiliation: |
|
Caltech, NRAO |
| Publication: |
|
Presented at the KITP Conference: The
New Cosmology Confronts Observation, Aug 19, 2002, Kavli Institute
for Theoretical Physics, University of California, Santa
Barbara |
| Publication Date: |
|
08/2002 |
| Origin: |
|
KITP |
| Bibliographic
Code: |
|
2002ncco.confE..32R |
Abstract
Not Available
| Title: |
|
Power Spectrum of the Cosmic
Microwave Background Radiation from the Cosmic Background
Imager |
| Authors: |
|
Pearson, T. J.;
Cosmic Background Imager Collaboration |
| Affiliation: |
|
AA(Caltech) |
| Publication: |
|
American Astronomical Society, 200th
AAS Meeting, #06.06; Bulletin of the American Astronomical Society,
Vol. 34, p.949 |
| Publication Date: |
|
06/2002 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2002: American Astronomical
Society |
| Bibliographic
Code: |
|
2002AAS...200.0606P |
Abstract
The Cosmic Background Imager (CBI) is an interferometer array
designed to measure the power spectrum of fluctuations in the
cosmic microwave background radiation. The CBI is located at an
altitude of 5080 m in northern Chile. It consists of 13 0.9-m
diameter antennas on a 6-m diameter tracking platform. Each antenna
has a cooled, low-noise receiver operating in the 26--36 GHz band.
Signals are cross-correlated in an analog correlator with 10 1-GHz
bands. We describe the observations and data-analysis methods and
present a determination of the microwave background intrinsic
anisotropy spectrum over the range l=400 to l=3500. The CBI project
is supported by the NSF.
| Title: |
|
Polarization observations with the
Cosmic Background Imager |
| Authors: |
|
Cartwright, John K.;
Readhead, Anthony C. S.;
Shepherd, Martin C.;
Padin, Steve;
Pearson, Timothy J.;
Taylor, Greg B. |
| Affiliation: |
|
AA(Department of Astronomy,
California Institute of Technology, Pasadena, California 91125),
AB(Department of Astronomy, California Institute of Technology,
Pasadena, California 91125), AC(Department of Astronomy, California
Institute of Technology, Pasadena, California 91125), AD(Department
of Astronomy, California Institute of Technology, Pasadena,
California 91125), AE(Department of Astronomy, California Institute
of Technology, Pasadena, California 91125), AF(National Radio
Astronomy Observatory, Socorro, New Mexico 87801-0387) |
| Publication: |
|
EXPERIMENTAL COSMOLOGY AT MILLIMETRE
WAVELENGTHS: 2K1BC Workshop. Breuil-Cervinia, Valle d'Aosta, Italy,
9-13 July, 2001. Edited by Marco De Petri and Massimo Gervasi.
American Institute of Physics, 2002. AIP Conference Proceedings,
Volume 616, pp. 135-139 (2002). (AIPC Homepage) |
| Publication Date: |
|
05/2002 |
| Origin: |
|
STI |
| Keywords: |
|
cosmic background radiation,
radiofrequency cosmic radiation, interferometers, antenna arrays,
polarisation, astronomical instruments |
| Abstract
Copyright: |
|
(c) 2002: American Institute of
Physics |
| Bibliographic
Code: |
|
2002AIPC..616..135C |
Abstract
We describe polarization observations of the CMBR with the Cosmic
Background Imager, a 13 element interferometer which operates in
the 26-36 GHz band from Llano de Chajnantour in northern Chile. The
array consists of 90-cm Cassegrain antennas mounted on a steerable
platform which can be rotated about the optical axis to facilitate
polarization observations. The CBI employs single mode circularly
polarized receivers which sample multipoles from
<script>l</script>~400 to
<script>l</script>~4250. The instrumental polarization
of the CBI was calibrated with 3C279, a bright polarized point
source which was monitored with the VLA. .
| Title: |
|
Cosmic Background Interferometry: A
Fast Data-Analysis Pipeline |
| Authors: |
|
Myers, S. T.;
Cosmic Background Imager Collaboration |
| Affiliation: |
|
AA(NRAO) |
| Publication: |
|
American Astronomical Society, 200th
AAS Meeting, #86.03; Bulletin of the American Astronomical Society,
Vol. 34, p.787 |
| Publication Date: |
|
05/2002 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2002: American Astronomical
Society |
| Bibliographic
Code: |
|
2002AAS...200.8603M |
Abstract
A fast Fourier-plane analysis pipeline has been developed for the
Cosmic Background Imager (CBI) project. The interferometer
visibilities are pre-gridded into a set of estimators that are
constructed on a lattice in the uv plane. The correlations between
these estimators are used as the basis for a maximum likelihood
reconstruction of the power spectrum of the intensity fluctuations
seen on the sky. This technique has been shown to be efficient and
robust, and can deal with large mosaics of fields such as those
produced by interferometers measuring the Cosmic Microwave
Background Radiation (CMBR) such as the CBI. This pipeline can also
produce optimally filtered images from the estimators, and can deal
with polarization data as well. We describe this novel method, and
show results for simulated datasets as well as real results from
the CBI. The scientific results highlighted include the recently
released CBI deep-field and mosaic power spectra of the CMBR which
cover the multipole range from l=300--3000. We also emphasize the
use of the CBI pipeline for the analysis of polarization
interferometry data, with particular application to the CBI
polarization upgrade currently underway.
| Title: |
|
Cosmology from the latest CBI and
BOOMERanG results |
| Authors: |
|
Contaldi, C. R.;
CBI/BOOMERanG Collaboration |
| Affiliation: |
|
AA(CITA) |
| Publication: |
|
American Astronomical Society, 200th
AAS Meeting, #86.02; Bulletin of the American Astronomical Society,
Vol. 34, p.787 |
| Publication Date: |
|
05/2002 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2002: American Astronomical
Society |
| Bibliographic
Code: |
|
2002AAS...200.8602C |
Abstract
We present the latest results from the BOOMERanG and CBI
experiments which chart the angular power spectrum of the
Cosmological Microwave Background anisotropies upto multipoles l =
3500 . We investigate the cosmological parameters obtained by
including the new data in our parameter fits to a host of CMB
datasets. We show how the CMB strongly constrains the curvature of
the Universe, the baryon density and the tilt of the primordial
power spectrum. We also show how including external constraints
from various experiments can help to significantly constrain the
density of cold dark matter and cosmological constant.
| Title: |
|
The CMB-osis of Cosmic
Fluctuations |
| Authors: |
|
Bond, J. R. |
| Affiliation: |
|
AA(CITA) |
| Publication: |
|
American Astronomical Society, 200th
AAS Meeting, #83.01; Bulletin of the American Astronomical Society,
Vol. 34, p.784 |
| Publication Date: |
|
05/2002 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2002: American Astronomical
Society |
| Bibliographic
Code: |
|
2002AAS...200.8301B |
Abstract
The tiny fluctuations in the 3K photon afterglow of the Big Bang
are geometrical mappings of sound waves when this ``oldest light in
the Universe'' decoupled from matter some 14 Gigayears ago. In work
spanning two decades, my collaborators and I have shown how these
encode information on the many parameters that define cosmic
structure formation theory. We have developed tools to analyze the
sequence of heroic experiments that have always pushed technology
to the edge, from even before the COBE satellite of the early 90s
through Boomerang, the Cosmic Background Imager, and other recent
experiments that have now directly imaged these acoustic patterns.
The patterns appear to be Gaussian-distributed and their power
spectra show multiple peaks and troughs and a damping tail. Our
analyses support the remarkable neo-Big-Bang paradigm: that quantum
noise generated during an ultra-early accelerated expansion
amplified via gravitational instability to form the galaxies and
their hierarchical clustering patterns that we observe as the
interconnected ``cosmic web''. When combined with precise
theoretical calculations, the CMB and cosmic web data have allowed
us to accurately infer the mass-energy densities in ordinary
(baryonic) matter, "cold" dark matter, and "vacuum" dark energy to
be about 5%, 30% and 65%, summing to ensure a nearly flat large
scale geometry. The dominance of dark energy is arguably the
greatest mystery in physics. A host of new high precision CMB
experiments, many targeting polarization and secondary CMB
processes associated with nonlinear effects, will help to establish
its properties.
| Title: |
|
Cosmology with the Cosmic Microwave
Background Radiation and the Sunyaev-Zel'dovich Effect |
| Authors: |
|
Readhead, A. C. S.;
Pearson, T. J.;
Mason, B. S.;
Shepherd, M. S.;
Sievers, J.;
Udomprasert, P. S.;
Cartwright, J. K.;
Padin, S.;
Farmer, A.;
Myers, S. T.;
Bond, J. R.;
Contaldi, C. R.;
Pen, U.;
Pogosyan, D.;
Prunet, S.;
Holzapfel, W. L.;
Carlstrom, J. E.;
Leitch, E. M.;
Kovac, J.;
Pryke, C.;
Bronfman, L.;
May, J.;
Altamirano, P.;
Joy, M. |
| Affiliation: |
|
AA(California Institute of
Technology), AB(California Institute of Technology), AC(California
Institute of Technology), AD(California Institute of Technology),
AE(California Institute of Technology), AF(California Institute of
Technology), AG(California Institute of Technology), AH(California
Institute of Technology), AI(California Institute of Technology),
AJ(NRAO), AK(Canadian Institute of Theoretical Astrophysics),
AL(Canadian Institute of Theoretical Astrophysics), AM(Canadian
Institute of Theoretical Astrophysics), AN(Canadian Institute of
Theoretical Astrophysics), AO(Canadian Institute of Theoretical
Astrophysics), AP(U. C. Berkeley), AQ(University of Chicago),
AR(University of Chicago), AS(University of Chicago), AT(University
of Chicago), AU(Universidad de Chile), AV(Universidad de Chile),
AW(Universidad de Chile), AX(Marshall Space Flight Center) |
| Publication: |
|
American Astronomical Society, 200th
AAS Meeting, #51.14; Bulletin of the American Astronomical Society,
Vol. 34, p.726 |
| Publication Date: |
|
05/2002 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2002: American Astronomical
Society |
| Bibliographic
Code: |
|
2002AAS...200.5114R |
Abstract
Observations of the intrinsic anisotropy in the cosmic microwave
background radiation (cmbr) and the scattering of cmbr photons in
clusters of galaxies due to the Sunyaev-Zel'dovich Effect provide a
powerful new method of measuring fundamental cosmological
parameters, including the geometry of the universe, the baryonic
and non-baryonic matter content of the universe, the cosmological
constant, the Hubble Constant and the slope of the primordial
density fluctuation spectrum. The spectacular recent successes of
balloon-borne payloads and of radio interferometers in this rapidly
developing field will be summarized, and new results from the
Cosmic Background Imager (CBI), which has been making observations
of the cmbr since January 2000 from a site at an altitude of 16,700
feet in the Chilean Andes, will be presented.
| Title: |
|
Preliminary results from the Cosmic
Background Imager |
| Authors: |
|
Mason, B. S.;
Cartwright, J. K.;
Padin, S.;
Pearson, T. J.;
Readhead, A. C. S.;
Shepherd, M.;
Sievers, J.;
Udomprasert, P. |
| Publication: |
|
In: The Ninth Marcel Grossmann
Meeting. Proceedings of the MGIXMM Meeting held at The University
of Rome "La Sapienza", 2-8 July 2000, Eds.: Vahe G. Gurzadyan,
Robert T. Jantzen, Remo Ruffini. Singapore: World Scientific
Publishing, in 3 volumes, ISBN 981-238-010-8 (set), ISBN
981-238-995-4 (Part A), ISBN 981-238-994-6 (Part B), ISBN
981-238-993-8 (Part C), 2002, Part C, p. 2171 - 2172 |
| Publication Date: |
|
00/2002 |
| Origin: |
|
ARI |
| Keywords: |
|
Cosmic Microwave Background:
Anisotropy, Observations |
| Abstract
Copyright: |
|
World Scientific |
| Bibliographic
Code: |
|
2002nmgm.meet.2171M |
Abstract
The Cosmic Background Imager (CBI) is a 13-element interferometer
designed to image intrinsic anisotropies in the cosmic microwave
background (CMB) on arcminute scales. A review of the capabilities
of the instrument is presented, together with a discussion of
observations which have been taken over the past 9 months from the
Atacama desert of Chile. We present preliminary high-resolution
mosaiced images of the CMB obtained from recent CBI data and
discuss topics which the CBI will address in the near future.
| Title: |
|
A determination of H0 from
CBI Observations of the Sunyaev-Zel'dovich Effect in Nearby
Clusters |
| Authors: |
|
Udomprasert, P. S.;
Mason, B. S.;
Readhead, A. C. S. |
| Affiliation: |
|
AA(Caltech), AB(Caltech),
AC(Caltech) |
| Publication: |
|
American Astronomical Society, 199th
AAS Meeting, #75.06; Bulletin of the American Astronomical Society,
Vol. 33, p.1419 |
| Publication Date: |
|
12/2001 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2001: American Astronomical
Society |
| Bibliographic
Code: |
|
2001AAS...199.7506U |
Abstract
With the Cosmic Background Imager, a 13-element interferometer
located in the Chilean Andes, we are conducting a study to
determine H0 with 10% accuracy through observations of
the Sunyaev-Zel'dovich Effect in a complete sample of low redshift
(z<0.1) clusters. We present our first H0 results
from a subsample of clusters using new CBI observations and
published X-ray data from ROSAT and ASCA.
| Title: |
|
The CMB Power Spectrum from CBI
Mosaics |
| Authors: |
|
Sievers, J. L.;
Pearson, T. J.;
Readhead, A. C. S.;
Shepherd, M. C.;
Udomprasert, P. S.;
Cartwright, J. K.;
Mason, B. S.;
Padin, S.;
Myers, S. T.;
Bond, J. R.;
Contaldi, C.;
Prunet, S.;
Pogosyan, D. |
| Affiliation: |
|
AA(Caltech), AB(Caltech),
AC(Caltech), AD(Caltech), AE(Caltech), AF(Caltech), AG(Caltech),
AH(Caltech), AI(NRAO), AJ(CITA), AK(CITA), AL(CITA), AM(CITA) |
| Publication: |
|
American Astronomical Society, 199th
AAS Meeting, #34.02; Bulletin of the American Astronomical Society,
Vol. 33, p.1357 |
| Publication Date: |
|
12/2001 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2001: American Astronomical
Society |
| Bibliographic
Code: |
|
2001AAS...199.3402S |
Abstract
The Cosmic Background Imager is a thirteen element interferometer
located in Chilean Andes designed to measure the angular power
spectrum of the Cosmic Microwave Background. It uses low-noise HEMT
receivers covering the frequency range of 26-36 GHz. We present the
power spectrum to l=2000 measured by CBI from three 2x2 degree
mosaics of 42 pointings each and discuss the implications of the
results.
| Title: |
|
Measurements of the CMB Power
Spectrum to L=4000 with the CBI |
| Authors: |
|
Mason, B.;
CBI Collaboration |
| Affiliation: |
|
AA(Caltech) |
| Publication: |
|
American Astronomical Society, 199th
AAS Meeting, #34.01; Bulletin of the American Astronomical Society,
Vol. 33, p.1357 |
| Publication Date: |
|
12/2001 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2001: American Astronomical
Society |
| Bibliographic
Code: |
|
2001AAS...199.3401M |
Abstract
We present a determination of the microwave background intrinsic
anisotropy spectrum over the range L=500 to L=4000 derived from
very deep observations of three pairs of fields with the Cosmic
Background Imager (CBI). The CBI is a 13-element interferometer
operating in the frequency range from 26 to 36 GHz at a site in the
high Chilean Andes. Our results confirm earlier findings of a drop
in the CMB power spectrum, and show that this continues to high L.
| Title: |
|
Polarization Observations with the
Cosmic Background Imager |
| Authors: |
|
Cartwright, J. K.;
Padin, S.;
Pearson, T. J.;
Readhead, A. C. S.;
Shepherd, M. C.;
Taylor, G. B. |
| Affiliation: |
|
AA(California Institute of
Technology), AB(California Institute of Technology), AC(California
Institute of Technology), AD(California Institute of Technology),
AE(California Institute of Technology), AF(National Radio Astronomy
Observatory) |
| Publication: |
|
American Astronomical Society, 198th
AAS Meeting, #21.03; Bulletin of the American Astronomical Society,
Vol. 33, p.816 |
| Publication Date: |
|
05/2001 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2001: American Astronomical
Society |
| Bibliographic
Code: |
|
2001AAS...198.2103C |
Abstract
We describe polarization observations of the CMBR with the Cosmic
Background Imager, a 13 element interferometer which operates in
the 26-36 GHz band from a site at 5000m in northern Chile. The
array consists of 90-cm Cassegrain antennas mounted on a single,
fully steerable platform; this platform can be rotated about the
optical axis to facilitate polarization observations. The CBI
employs single mode circularly polarized receivers, of which 12 are
configured for LCP and one is configured for RCP. The 12 cross
polarized baselines sample multipoles from l 600 to l 3500. The
instrumental polarization of the CBI was calibrated with
observations of 3C279, a bright polarized source which is
unresolved by the CBI. Because the centimeter flux of 3C279 is
variable, it was monitored twice per month for 8 months in 2000
with the VLA at 22 and 43 GHz. These observations also established
the stability of the polarization characteristics of the CBI. This
work was made possible by NSF grant AST-9802989
| Title: |
|
Determining H0 with
XMM-Newton and the Cosmic Background Imager |
| Authors: |
|
Udomprasert, Patricia S.;
Mason, Brian S.;
Readhead, Anthony C. S. |
| Publication: |
|
New Century of X-ray Astronomy, ASP
Conference Proceedings Vol. 251. Edited by H. Inoue and H. Kunieda.
ISBN: 1-58381-091-9. San Francisco: Astronomical Society of the
Pacific, 2001., p.492 |
| Publication Date: |
|
00/2001 |
| Origin: |
|
ADS |
| Bibliographic
Code: |
|
2001ASPC..251..492U |
Abstract
Not Available
| Title: |
|
First Results from the CBI |
| Authors: |
|
Mason, B. S.;
Pearson, T. J.;
Readhead, A. C. S.;
Shepherd, M.;
Sievers, J.;
Udomprasert, P.;
Cartwright, J. K.;
Padin, S. |
| Publication: |
|
20th Texas Symposium on relativistic
astrophysics, Austin, Texas, 10-15 Decem ber 2000, Melville, NY:
American Institute of Physics, 2001, xix, 938 p. AIP conference
proceedings, Vol. 586. Edited by J. Craig Wheeler and Hugo Martel.
ISBN 0735400261, p.178 (AIPC
Homepage) |
| Publication Date: |
|
00/2001 |
| Origin: |
|
ADS |
| Bibliographic
Code: |
|
2001AIPC..586..178M |
Abstract
Not Available
| Title: |
|
Observations of the Cosmic Microwave
Background with the Cosmic Background Imager |
| Authors: |
|
Sievers, J.;
Mason, B.;
Padin, S.;
Pearson, T.;
Readhead, A.;
Shepherd, M.;
Udomprasert, P.;
Cartwright, J. |
| Affiliation: |
|
AA(Caltech), AB(Caltech),
AC(Caltech), AD(Caltech), AE(Caltech), AF(Caltech), AG(Caltech),
AH(Caltech) |
| Publication: |
|
American Astronomical Society, 197th
AAS Meeting, #136.03; Bulletin of the American Astronomical
Society, Vol. 33, p.724 |
| Publication Date: |
|
12/2000 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2000: American Astronomical
Society |
| Bibliographic
Code: |
|
2000AAS...19713603S |
Abstract
We present results on the intrinsic anisotropy CMB spectrum from
the Cosmic Background Imager (CBI). The CBI is a 13 element
interferometer located at 5,000 meters in northern Chile that
covers the multipole range l ~ 600-3000. The low system noise (<
~ 30 K) and wide bandwidth (10 GHz from 26-36 GHz) allow the CBI to
reach the cosmic variance limit in a 45' field at our lowest l
range in less than a night.
| Title: |
|
Observations of the
Sunyaev-Zel'dovich Effect with the Cosmic Background Imager |
| Authors: |
|
Udomprasert, P. S.;
Mason, B. S.;
Readhead, A. C. S. |
| Affiliation: |
|
AA(Caltech), AB(Caltech),
AC(Caltech) |
| Publication: |
|
American Astronomical Society, 197th
AAS Meeting, #104.01; Bulletin of the American Astronomical
Society, Vol. 32, p.1576 |
| Publication Date: |
|
12/2000 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2000: American Astronomical
Society |
| Bibliographic
Code: |
|
2000AAS...19710401U |
Abstract
We are engaged in a program with the Cosmic Background Imager
(CBI), a 13-element interferometer recently installed at 5000 m in
the Chilean Andes, to measure H0 with 10% accuracy
through observations of the Sunyaev-Zel'dovich effect (SZE) in a
sample of low-redshift clusters (z<0.1). Our focus on nearby
objects allows us to study a well-defined, orientation unbiased
sample, minimizing systematic errors due to cluster elongation. The
large angular extent of our targets will also provide us with a
better understanding of the effects of non-smooth and
non-isothermal cluster gas on the H0 derivation. We
present early results from our sample. We gratefully acknowledge
support from NSF award AST-9802989, and PSU acknowledges support
from an NSF Graduate Student Fellowship.
| Title: |
|
Polarization Observations with the
Cosmic Background Imager |
| Authors: |
|
Cartwright, J. K.;
Padin, S.;
Pearson, T. J.;
Readhead, A. C. S.;
Shepherd, M. C.;
Taylor, G. B. |
| Affiliation: |
|
AA(California Institute of
Technology), AB(California Institute of Technology), AC(California
Institute of Technology), AD(California Institute of Technology),
AE(California Institute of Technology), AF(National Radio Astronomy
Observatory) |
| Publication: |
|
American Astronomical Society, 197th
AAS Meeting, #55.02; Bulletin of the American Astronomical Society,
Vol. 32, p.1496 |
| Publication Date: |
|
12/2000 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 2000: American Astronomical
Society |
| Bibliographic
Code: |
|
2000AAS...197.5502C |
Abstract
The linear polarization of the Cosmic Microwave Background
Radiation is a fundamental prediction of the standard model. We
report a limit on the polarization of the CMBR for l ~660. This
limit was obtained with the Cosmic Background Imager, a 13 element
interferometer which operates in the 26-36 GHz band from a site at
5000m in northern Chile. The array consists of 90-cm Cassegrain
antennas mounted on a single, fully steerable platform; this
platform can be rotated about the optical axis to facilitate
polarization observations. The CBI employs single mode circularly
polarized receivers, of which 12 are configured for LCP and one is
configured for RCP. The 12 cross polarized baselines sample
multipoles from l ~600 to l ~3500. The instrumental polarization of
the CBI was calibrated with observations of 3C279, a bright
polarized source which is unresolved by the CBI. Because the
centimeter flux of 3C279 is variable, it was monitored twice per
month for 8 months in '00 with the VLA at 22 and 43 GHz. These
observations also established the stability of the polarization
characteristics of the CBI. This work was made possible by NSF
grant AST-9802989
| Title: |
|
Cbi |
| Authors: |
|
Myers, Steven |
| Affiliation: |
|
NRAO |
| Publication: |
|
Presented at the KITP Miniprogram:
Probing the Universe with the Cosmic Microwave Background, Jul 10,
2000, Kavli Institute for Theoretical Physics, University of
California, Santa Barbara |
| Publication Date: |
|
07/2000 |
| Origin: |
|
KITP |
| Bibliographic
Code: |
|
2000pucm.progE..32M |
Abstract
Not Available
| Title: |
|
Mosaicing Techniques for CMBR
Interferometry |
| Authors: |
|
Myers, S. T. |
| Affiliation: |
|
AA(NRAO, Socorro, NM, USA) |
| Publication: |
|
New Cosmological Data and the Values
of the Fundamental Parameters, International Astronomical Union.
Symposium no. 201. Manchester, England, August 2000, meeting
abstract. |
| Publication Date: |
|
00/2000 |
| Origin: |
|
AUTHOR |
| Bibliographic
Code: |
|
2000IAUS..201E..82M |
Abstract
There are several ongoing programs to build and use specially
designed microwave interferometers to measure anisotropy in the
Cosmic Microwave Background Radiation (CMBR) on angular scales of a
degree and finer. Nominally, the maximum angular scale to which an
array is sensitive is given by the primary beam defined by the
field-of-view of a single antenna -- 45' at 31 GHz in the case of
the Cosmic Background Imager (CBI) array built at Caltech and now
operating at the Llano de Chajnantor site in Northern Chile.
However, it is well-known that by combining a raster of fields with
offset pointing, a technique known as ``mosaicing'', angular scales
larger than a single primary beam can be probed. In the case of the
CMBR, it is not just the desire of measuring larger scale
fluctuations with a given instrument that drives the use of
mosiacing. The size of the individual antenna elements also defines
the intrinsic resolution of the interferometer in uv or Fourier
space, which is related to the multipole l = 2π
sqrt;{u2+vs} that characterizes the power
spectrum of the anisotropy fluctuations. The acoustic features in
the CMBR power-spectrum are expected to have widths Deltal ~ 200,
while the smallest baselines of the CBI measure Deltal ~ 600, and
thus mosaicing will be necessary to resolve the acoustic peaks. In
this paper the special problems and techniques for uv mosaicing of
CMBR interferometer data are discussed, with particular application
to the CBI for CMBR anisotropy power spectrum and Sunyaev-Zeldovich
effect measurements.
| Title: |
|
The Sunyaev-Zeldovich Effect Imaging
and Interferometry: BIMA-CBI-OVRO State of the Art and Future
Prospects |
| Authors: |
|
Myers, S. T. |
| Affiliation: |
|
AA(NRAO, Socorro, NM, USA) |
| Publication: |
|
New Cosmological Data and the Values
of the Fundamental Parameters, International Astronomical Union.
Symposium no. 201. Manchester, England, August 2000, meeting
abstract. |
| Publication Date: |
|
00/2000 |
| Origin: |
|
AUTHOR |
| Bibliographic
Code: |
|
2000IAUS..201E..19M |
Abstract
This talk presents a summary of the most recent results from
microwave and millimeter-wave surveys of the Sunyaev-Zeldovich
Effect (SZE) in massive clusters of galaxies. The SZE is caused by
Compton scattering of low-energy CMB photons off high-temperature
ionized gas in cluster atmospheres, and is a direct measurement of
the baryon content of the intercluster medium. New results from the
Chicago-BIMA SZE survey of Carlstrom et al., the Penn-OVRO SZE
program of Mason et al., and the Caltech-CBI SZE project of Padin
et al. will be discussed, along with prospects for future imaging
and interferometric studies of clusters to pin down the
astrophysical properties of cluster baryons and dark matter as well
as possible constraints on cosmological parameters.
| Title: |
|
The Cosmic Background Imager |
| Authors: |
|
Pearson, T. J.;
Readhead, A. C. S.;
Padin, S.;
Cartwright, J. K.;
Mason, B. S.;
Myers, S. T.;
Shepherd, M. C.;
Sievers, J. L.;
Udomprasert, P. S. |
| Affiliation: |
|
AA(California Institute of
Technology) |
| Publication: |
|
New Cosmological Data and the Values
of the Fundamental Parameters, International Astronomical Union.
Symposium no. 201. Manchester, England, August 2000, meeting
abstract. |
| Publication Date: |
|
00/2000 |
| Origin: |
|
AUTHOR |
| Bibliographic
Code: |
|
2000IAUS..201E...2P |
Abstract
The Cosmic Background Imager (CBI) is an instrument designed to
make images of the cosmic microwave background radiation and to
measure its statistical properties on angular scales from 5 arc
minutes to one degree (spherical harmonic scales from l ~ 3000 down
to l ~ 300). The CBI is a 13-element interferometer mounted on a 6
meter platform operating in ten 1-GHz frequency bands from 26 GHz
to 36 GHz. The instantaneous field of view of the instrument is 44
arcmin and its resolution ranges from 4.5 to 10 arcmin; larger
fields can be imaged by mosaicing. At this frequency and
resolution, the primary foreground is due to discrete extragalactic
sources, which are monitored at the Owens Valley Radio Observatory
and subtracted from the CBI visibility measurements. The instrument
has been making observations since late 1999 of both primordial CMB
fluctuations and the Sunyaev-Zeldovich effect in clusters of
galaxies from its site at an altitude of 5000 meters near San Pedro
de Atacama, in northern Chile. Observations will continue until
mid-2001 or later. We will present images and power-spectrum
estimates from the first few months of observations.
| Title: |
|
The Sunyaev-Zel'dovich Effect with
the Cosmic Background Imager |
| Authors: |
|
Udomprasert, P. S.;
Mason, B. S.;
Readhead, A. C. S. |
| Affiliation: |
|
AA(Caltech, Pasadena CA, USA),
AB(Caltech, Pasadena CA, USA), AC(Caltech, Pasadena CA, USA) |
| Publication: |
|
Constructing the Universe with
Clusters of Galaxies, IAP 2000 meeting, Paris, France, July 2000,
Florence Durret & Daniel Gerbal Eds., available on CD-Rom and
at http://www.iap.fr/Conferences/Colloque/coll2000/ contributions
Reference: 4.4.6. |
| Publication Date: |
|
00/2000 |
| Origin: |
|
AUTHOR |
| Bibliographic
Code: |
|
2000cucg.confE..48U |
Abstract
We are engaged in a program with the Cosmic Background Imager
(CBI), a 13-element interferometer recently installed at 5000 m in
the Chilean Andes, to measure H0 with 10 % accuracy
through observations of the Sunyaev-Zel'dovich effect in a sample
of nearby clusters. We discuss the capabilities of this new
instrument and present our cluster sample and selection criteria,
along with results from detailed simulations. We also present
preliminary observations of Abell 478.
| Title: |
|
Measurements of the SZE in a Complete
Sample of Nearby Clusters of Galaxies |
| Authors: |
|
Myers, S. T.;
Mason, B. S. |
| Affiliation: |
|
AA(University of Pennsylvania),
AB(University of Pennsylvania) |
| Publication: |
|
American Astronomical Society, 194th
AAS Meeting, #58.04; Bulletin of the American Astronomical Society,
Vol. 31, p.916 |
| Publication Date: |
|
05/1999 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 1999: American Astronomical
Society |
| Bibliographic
Code: |
|
1999AAS...194.5804M |
Abstract
Matter density and gravitational potential fluctuations in the
Early and Late Universe imprint characteristic signatures on the
Cosmic Microwave Background that can in principle be decoded
through high-precision radio wavelength observations. Recent
results from programs that put this into practice will be
presented. The focus of the talk will be the Penn-OVRO
Sunyaev-Zeldovich Survey, which targets a complete X-ray selected
sample of nearby massive clusters of galaxies and has yielded a
robust measurement of the baryonic mass in the intercluster medium,
as well as a determination of the Hubble Constant. The future of
these programs in the context of the Cosmic Background Imager
project will also be discussed.
| Title: |
|
High Presision SZE Observations of
Nearby Clusters: Prospects for the Pole |
| Authors: |
|
Myers, S. T. |
| Affiliation: |
|
AA(University of Pennsylvania) |
| Publication: |
|
American Astronomical Society, 192nd
AAS Meeting, #48.12; Bulletin of the American Astronomical Society,
Vol. 30, p.1152 |
| Publication Date: |
|
09/1998 |
| Origin: |
|
AAS |
| Abstract
Copyright: |
|
(c) 1998: American Astronomical
Society |
| Bibliographic
Code: |
|
1998AAS...192.4812M |
Abstract
A survey to measure the Sunyaev-Zeldovich Effect (SZE) in a
complete X-ray flux-limited sample of nearby clusters of galaxies
is nearing completion using the OVRO 5.5m radiotelescope. These
measurements have been limited by the atmospheric conditions in the
Owens Valley, exacerbated by the problems introduced by
beam-switching with a single-dish. An expanded sample of luminous
nearby clusters will be surveyed using the Cosmic Background
Imager, a compact CMB interferometer slated for installation in the
Atacama desert of Chile in early 1999. The prospects for conducting
these sorts of precision microwave observations from the Antarctic
will be discussed, in comparison with existing OVRO data and future
Atacama measurements. In particular, the pros and cons of a South
Polar program will be examined carefully, particularly given the
costs and logistical difficulties associated with Antarctic
operations.
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