cbi observations of the sunyaev-zeldovich effect
DESCRIPTION
CBI Observations of the Sunyaev-Zeldovich Effect. Steven T. Myers*,. Patricia Udomprasert, and the CBI Team. *National Radio Astronomy Observatory Socorro, NM. The Sunyaev-Zeldovich Effect. Behind clusters of galaxies is …. A2597 Chandra, courtesy NASA/CXC/Ohio U/B.McNamara et al. - PowerPoint PPT PresentationTRANSCRIPT
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1X-Ray Radio Connections – Feb 6, 2004
CBI Observations of the Sunyaev-Zeldovich Effect
Steven T. Myers*,
*National Radio Astronomy Observatory
Socorro, NM
Patricia Udomprasert, and the CBI Team
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2X-Ray Radio Connections – Feb 6, 2004
The Sunyaev-Zeldovich Effect
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3X-Ray Radio Connections – Feb 6, 2004
Behind clusters of galaxies is …
• A2597 Chandra, courtesy NASA/CXC/Ohio U/B.McNamara et al.
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4X-Ray Radio Connections – Feb 6, 2004
The Cosmic Microwave Background
• Discovered 1965 (Penzias & Wilson)– 2.7 K blackbody– Isotropic– Relic of hot “big bang”– 3 mK dipole (Doppler)
• COBE 1992– Blackbody 2.725 K– Anisotropies 10-5
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5X-Ray Radio Connections – Feb 6, 2004
Thermal History of the Universe
Courtesy Wayne Hu – http://background.uchicago.edu
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6X-Ray Radio Connections – Feb 6, 2004
The SZE
• The Sunyaev-Zeldovich Effect– Compton upscattering of CMB photons by keV electrons– decrement in I below CMB thermal peak (increment above)– negative extended sources (absorption against 3K CMB)– massive clusters mK, but shallow profile θ-1 → -exp(-v)
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7X-Ray Radio Connections – Feb 6, 2004
CL 0016+16, z = 0.55 (Carlstrom et al.)
SZE: = 15 K, contours =2
X-Ray
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8X-Ray Radio Connections – Feb 6, 2004
Sample from 60 OVRO/BIMA imaged clusters, 0.07 < z < 1.03
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9X-Ray Radio Connections – Feb 6, 2004
The Cosmic Background Imager
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10X-Ray Radio Connections – Feb 6, 2004
The Instrument
• 13 90-cm Cassegrain antennas– 78 baselines
• 6-meter platform– Baselines 1m – 5.51m
• 10 1 GHz channels 26-36 GHz– HEMT amplifiers (NRAO)
– Cryogenic 6K, Tsys 20 K
• Single polarization (R or L)– Polarizers from U. Chicago
• Analog correlators– 780 complex correlators
• Field-of-view 44 arcmin– Image noise 4 mJy/bm 900s
• Resolution 4.5 – 10 arcmin
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11X-Ray Radio Connections – Feb 6, 2004
3-Axis mount : rotatable platform
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12X-Ray Radio Connections – Feb 6, 2004
CBI Operations• Observing in Chile since Nov 1999
– NSF proposal 1994, funding in 1995– Assembled and tested at Caltech in 1998– Shipped to Chile in August 1999– Continued NSF funding in 2002, to end of 2004– Chile Operations 2004-2005 pending proposal
• Telescope at high site in Andes– 16000 ft (~5000 m)– Located on Science Preserve, co-located with ALMA– Now also ATSE (Japan) and APEX (Germany), others– Controlled on-site, oxygenated quarters in containers– access from San Pedro de Atacama (1.5 hrs away)
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13X-Ray Radio Connections – Feb 6, 2004
CBI Beam and uv coverage
• 78 baselines and 10 frequency channels = 780 instantaneous visibilities– Frequency channels give radial spread in uv plane
• Baselines locked to platform in pointing direction– Baselines always perpendicular to source direction– Delay lines not needed– Very low fringe rates (susceptible to cross-talk and ground)
• Pointing platform rotatable to fill in uv coverage– Parallactic angle rotation gives azimuthal spread– Beam nearly circularly symmetric
• CBI uv plane is well-sampled– few gaps– inner hole (1.1D), outer limit dominates PSF
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14X-Ray Radio Connections – Feb 6, 2004
CBI Calibration from WMAP Jupiter
• Old uncertainty: 5%• 2.7% high vs. WMAP Jupiter• New uncertainty: 1.3%• Ultimate goal: 0.5%
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15X-Ray Radio Connections – Feb 6, 2004
Decontamination
• Ground emission removal– Strong on short baselines, depends on orientation– Differencing between main SZ field and lead/trail field pairs
(9m to 16.5m in RA=2-4 deg)
• Foreground radio sources– Located in NVSS at 1.4 GHz, VLA 8.4 GHz– Measured at 30 GHz with OVRO 40m
• Background CMB– dominant contaminant for arcmin-scale clusters!– include as error component
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16X-Ray Radio Connections – Feb 6, 2004
The CBI SZE Program
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17X-Ray Radio Connections – Feb 6, 2004
The CBI SZE Sample
• led by Patricia Udomprasert (PhD. Thesis Caltech 2003)
• drawn from ROSAT (Ebeling et al. 1996, 1998; de Grandi et al. 1999; Boehringer et al. 2003)
• f 0.1-2.4keV > 1.0 x 10-11 erg cm-2 sec-1
• z < 0.1
• L 0.1-2.4keV > 1.13 x 1044 h-2 erg s-1
• declination –70° < < 24 °• 24 clusters accessible to CBI• primary sample 15 most luminous• detailed in Udomprasert, Mason, Readhead &
Pearson (2004) preprint
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18X-Ray Radio Connections – Feb 6, 2004
Subsample 7 clusters
• covers a range of luminosities and cluster types
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19X-Ray Radio Connections – Feb 6, 2004
CBI SZE visibility function
• Xray: θ-3 ( ~ 2/3)• SZE: θ-1 → -exp(-v)• dominated by shortest
baselines
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20X-Ray Radio Connections – Feb 6, 2004
A85
• A85 – cluster with central cooling flow, some signs of merger activity, subcluster to south
(left) Raw CBI Image (center) CLEAN source-sub CBI Image (right) CBI w/ROSAT
Forman et al. astro-ph/0301476
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21X-Ray Radio Connections – Feb 6, 2004
A399
• A399 – pair with A401
(left) Raw CBI Image (center) CLEAN source-sub CBI Image (right) CBI w/ROSAT
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22X-Ray Radio Connections – Feb 6, 2004
A401
• A401 – pair with A399, likely interacting now or in past, cooling flow disrupted?
(left) Raw CBI Image (center) CLEAN source-sub CBI Image (right) CBI w/ROSAT
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23X-Ray Radio Connections – Feb 6, 2004
A478
• A478 – relaxed cooling flow cluster, X-ray cavities from AGN
(left) Raw CBI Image (center) CLEAN source-sub CBI Image (right) CBI w/ROSAT
Chandra: Sun et al. astro-ph/0210054 (inner region + 1.4 GHz radio)
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24X-Ray Radio Connections – Feb 6, 2004
A754
• A754 – “prototypical” violent merger, significantly disturbed
(left) Raw CBI Image (center) CLEAN source-sub CBI Image (right) CBI w/ROSAT
Chandra: Govoni et al. astro-ph/0401421
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25X-Ray Radio Connections – Feb 6, 2004
A1651
• A1651 – dynamically relaxed cD cluster, unremarkable
(left) Raw CBI Image (center) CLEAN source-sub CBI Image (right) CBI w/ROSAT
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26X-Ray Radio Connections – Feb 6, 2004
A2597
• A2597 – regular cD cluster with cooling flow, AGN in center (see raw image) with X-ray shadows in X-ray
(left) Raw CBI Image (center) CLEAN source-sub CBI Image (right) CBI w/ROSAT
A2597 Chandra, courtesy NASA/CXC/Ohio U/B.McNamara et al.
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27X-Ray Radio Connections – Feb 6, 2004
SZE vs. X-rays: The Main Event
• gas density profiles:
• X-ray surface brightness:
• SZE surface brightness:
• dependence on parameters:
• DA ~ h-1 ne0 ~ h1/2 → ISZE ~ h-1/2
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28X-Ray Radio Connections – Feb 6, 2004
Results
• unweighted H0 = 67 +30–18 +13 –6 km/s/Mpc
• weighted H0 = 75 +23–16 +15 –7 km/s/Mpc
• uncertainties dominated by CMB confusion• based on older X-ray data…
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29X-Ray Radio Connections – Feb 6, 2004
Gastrophysics?
• “mergers” A85, A399/401, A754– A401 & A754 somewhat low, A399 very low (but uncertain)
• “cooling cores” A85, A478, A2597– A478 high, A2597 very high (but uncertain)
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30X-Ray Radio Connections – Feb 6, 2004
Error Budget• CMB anisotropies – the dominant uncertainty• density model – models, some bias correction needed• temperature profiles – assume isothermal, investigate
deviations• radio point sources – residuals small after using counts• cluster asphericity – < 4%, could be worse in individual clusters
• clumpy gas distribution – <ne2 > / <ne>2 bias, substructure?
• peculiar velocities – no bias, 0.04% for even 1000 km/s!• non-thermal Comptonization – unknown, model dependent
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31X-Ray Radio Connections – Feb 6, 2004
And the upshot is…
• Sample average H0 consistent with canonical value– uncertainties dominated by CMB, then astrophysics– is there significant scatter among clusters?– finish the full sample!
• Gastrophysics not cosmology– turn it around – what does scatter say about clusters?– need to use latest Chandra & XMM-Newton data!– finish the full sample!
• What about the pesky CMB?– more distant clusters better, CMB less on smaller scales– measure CMB at SZE null (2mm)
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32X-Ray Radio Connections – Feb 6, 2004
CBI SZE Interferometry Issues• Analysis issues
– joint CBI & Xray modelfitting– removal of CMB (e.g. mode projection?)– substructure! more sensitivity on small scales…
• GBT!– get GBT source measurements with new 30GHz system!– do SZ with GBT!
• Other SZE experiments– ACBAR at South Pole– Carlstrom’s SZA and SPT– big bolometer arrays on GBT, ACT– subtract CMB by measuring at SZE null (e.g. ACBAR)
First ACBAR Cluster Image: A3266
z=.0545Tx=6.2 keVLx=9.5x1044
Courtesy ACBAR group
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33X-Ray Radio Connections – Feb 6, 2004
The SZE as a CMB Foreground
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34X-Ray Radio Connections – Feb 6, 2004
• Spectral distortion of CMB• Dominated by massive halos (galaxy clusters)• Low-z clusters: ~ 10’-30’• z=1: ~1’ expected dominant signal in CMB on small angular scales• Amplitude highly sensitive to 8
A. Cooray (astro-ph/0203048)
P. Zhang, U. Pen, & B. Wang (astro-ph/0201375)
SZE Signatures in CMB
Mason et al. 2003, ApJ, 591, 540
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35X-Ray Radio Connections – Feb 6, 2004
SZE Angular Power SpectrumSZE Angular Power Spectrum
•Smooth Particle Hydrodynamics (5123) [Wadsley et al. 2002]
•Moving Mesh Hydrodynamics (5123) [Pen 1998]
•143 Mpc 8=1.0
•200 Mpc 8=1.0
•200 Mpc 8=0.9
•400 Mpc 8=0.9
[Bond et al. 2002, astro-ph/0205386]
Dawson et al. 2002
Goldstein et al. 2003, ApJ, 599, 773
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36X-Ray Radio Connections – Feb 6, 2004
The CBI Collaboration
Caltech Team: Tony Readhead (Principal Investigator), John Cartwright, Alison Farmer, Russ Keeney, Brian Mason, Steve Miller, Steve Padin (Project Scientist), Tim Pearson, Walter Schaal, Martin Shepherd, Jonathan Sievers, Pat Udomprasert, John Yamasaki.Operations in Chile: Pablo Altamirano, Ricardo Bustos, Cristobal Achermann, Tomislav Vucina, Juan Pablo Jacob, José Cortes, Wilson Araya.Collaborators: Dick Bond (CITA), Leonardo Bronfman (University of Chile), John Carlstrom (University of Chicago), Simon Casassus (University of Chile), Carlo Contaldi (CITA), Nils Halverson (University of California, Berkeley), Bill Holzapfel (University of California, Berkeley), Marshall Joy (NASA's Marshall Space Flight Center), John Kovac (University of Chicago), Erik Leitch (University of Chicago), Jorge May (University of Chile), Steven Myers (National Radio Astronomy Observatory), Angel Otarola (European Southern Observatory), Ue-Li Pen (CITA), Dmitry Pogosyan (University of Alberta), Simon Prunet (Institut d'Astrophysique de Paris), Clem Pryke (University of Chicago).
The CBI Project is a collaboration between the California Institute of Technology, the Canadian Institute for Theoretical Astrophysics, the National Radio Astronomy Observatory, the University of Chicago, and the Universidad de Chile. The project has been supported by funds from the National Science Foundation, the California Institute of Technology, Maxine and Ronald Linde, Cecil and Sally Drinkward, Barbara and Stanley Rawn Jr., the Kavli Institute,and the Canadian Institute for Advanced Research.
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37X-Ray Radio Connections – Feb 6, 2004