X-ray Astronomy School 2002 Clusters of Galaxies (and some Cosmology) Scientific and Data Analysis Issues Keith Arnaud NASA/GSFC and UMCP.

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X-ray Astronomy School 2002 Clusters of Galaxies (and some Cosmology) Scientific and Data Analysis Issues Keith Arnaud NASA/GSFC and UMCP

Structure in the Universe Fluctuations in density are created early in the Universe. These fluctuations grow in time. At recombination (when the Universe has cooled enough for atoms to form from electron-proton plasma) they leave their imprint on the microwave background. COBE, MAP,… Fluctuations continue growing as overdense regions collapse under their own gravitational attraction. Baryons fall into the gravitational potential wells produced by the dark matter. Potential energy is converted to kinetic then thermalized -> hot plasma.

X-ray Astronomy School 2002 NCSA simulation - gas density Bryan & Norman

X-ray Astronomy School 2002 NCSA simulation - X-ray luminosity Bryan & Norman

X-ray Astronomy School 2002 Formation of dark matter halo Moore et al.

X-ray Astronomy School 2002 Dark matter and X-ray emission simulation

Structure in the Universe II Clusters of galaxies are formed from the extreme high end (“high sigma peaks”) of the initial fluctuation spectrum. They exist at the intersections of the Cosmic Web. The way that structure evolves depends on the geometry and contents of the Universe (total density, dark matter density, dark energy density,…). Because clusters are formed from the high sigma peaks their numbers and evolution in time depend sensitively on cosmological parameters.

X-rays from Clusters of Galaxies The baryons thermalize to > 10 6 K making clusters strong X-ray sources. Most of the baryons in a cluster are in the X-ray emitting plasma - only 10-20% are in the galaxies. Clusters of galaxies are self-gravitating accumulations of dark matter which have trapped hot plasma (intracluster medium - ICM) and galaxies. (ie the galaxies are the least important constituent)

X-ray Astronomy School 2002 Optical image with X-ray isointensity contours

X-ray Astronomy School 2002 z=1.26 cluster observed using Chandra and Keck

What we try to measure From the spectrum we can measure a mean temperature, a redshift, and abundances of the most common elements (heavier than He). With good S/N we can determine whether the spectrum is consistent with a single temperature or is a sum of emission from plasma at different temperatures. Using symmetry assumptions the X-ray surface brightness can be converted to a measure of the ICM density.

What we try to measure II If we can measure the temperature and density at different positions in the cluster then assuming the plasma is in hydrostatic equilibrium we can derive the gravitational potential and hence the amount and distribution of the dark matter. There are two other ways to get the gravitational potential : The galaxies act as test particles moving in the potential so their redshift distribution provides a measure of total mass. The gravitational potential acts as a lens on light from background galaxies.

Top Questions in Clusters of Galaxies Are clusters fair samples of the Universe ? Can we derive accurate and unbiassed masses from simple observables such as luminosity and temperature ? Does the gravitational potential have the same shape as the baryons (stars and gas) ? What is happening in the centers of clusters - how does the radio galaxy and the cluster gas interact ? What is the origin of the metals in the ICM and when were they injected ? What is the origin of the entropy of the ICM ?

Top Questions in Clusters of Galaxies Are clusters fair samples of the Universe ? Can we derive accurate and unbiassed masses from simple observables such as luminosity and temperature ? Does the gravitational potential have the same shape as the baryons (stars and gas) ? What is happening in the centers of clusters - how does the radio galaxy and the cluster gas interact ? What is the origin of the metals in the ICM and when were they injected ? What is the origin of the entropy of the ICM ?

Top Questions in Clusters of Galaxies Are clusters fair samples of the Universe ? Can we derive accurate and unbiassed masses from simple observables such as luminosity and temperature ? Does the gravitational potential have the same shape as the baryons (stars and gas) ? What is happening in the centers of clusters - how does the radio galaxy and the cluster gas interact ? What is the origin of the metals in the ICM and when were they injected ? What is the origin of the entropy of the ICM ?

Why do we care ? Cosmological calculations predict distributions of masses. If we want to use X-ray selected samples of clusters of galaxies to measure cosmological parameters then we must be able to relate the observables (luminosity and temperature) to the theoretical masses.

X-ray Astronomy School 2002 Galaxy Survey

X-ray Astronomy School 2002 Cluster Survey

X-ray Astronomy School 2002 Power spectrum from X-ray clusters (REFLEX) and galaxies (2dF) Guzzo LCDM SCDM

X-ray Astronomy School 2002 Cosmology from Cluster Evolution

X-ray Astronomy School 2002 Cosmology from Cluster Surveys DUET team

X-ray Astronomy School 2002 Merger simulation - gas density Ricker et al.

X-ray Astronomy School 2002 XMM image and temperature map of Coma

X-ray Astronomy School 2002 Chandra image of 1E “Bullet”

Top Questions in Clusters of Galaxies Are clusters fair samples of the Universe ? Can we derive accurate and unbiassed masses from simple observables such as luminosity and temperature ? Does the gravitational potential have the same shape as the baryons (stars and gas) ? What is happening in the centers of clusters - how does the radio galaxy and the cluster gas interact ? What is the origin of the metals in the ICM and when were they injected ? What is the origin of the entropy of the ICM ?

Top Questions in Clusters of Galaxies Are clusters fair samples of the Universe ? Can we derive accurate and unbiassed masses from simple observables such as luminosity and temperature ? Does the gravitational potential have the same shape as the baryons (stars and gas) ? What is happening in the centers of clusters - how does the radio galaxy and the cluster gas interact ? What is the origin of the metals in the ICM and when were they injected ? What is the origin of the entropy of the ICM ?

Why do we care ? We used to have a simple model for the cores of clusters : Clusters were spherically symmetric balls of plasma that evolved in isolation. In their centers they would lose energy by radiating X-rays - leading to a steady cooling inflow of plasma. So the X-ray spectra should show evidence for a range of temperatures from the ambient for the cluster down to zero.

X-ray Astronomy School 2002 Abell 1835 XMM RGS Peterson et al.

X-ray Astronomy School 2002 Chandra image of Hydra-A

X-ray Astronomy School 2002 Chandra image of Perseus cluster

X-ray Astronomy School 2002 Temperature map of Perseus cluster core Schmidt et al.

X-ray Astronomy School 2002 Halloween Cluster

X-ray Astronomy School 2002 Effect of a rising bubble of hot plasma Churazov et al. t = 0t = 67 Myr White is hot and black is cold - the coolest gas is produced from uplifted, adiabatically expanded gas.

Top Questions in Clusters of Galaxies Are clusters fair samples of the Universe ? Can we derive accurate and unbiassed masses from simple observables such as luminosity and temperature ? Does the gravitational potential have the same shape as the baryons (stars and gas) ? What is happening in the centers of clusters - how does the radio galaxy and the cluster gas interact ? What is the origin of the metals in the ICM and when were they injected ? What is the origin of the entropy of the ICM ?

X-ray Astronomy School 2002 Metal Abundances Horner et al. Temperature (keV) Abundance (fraction of Solar)

X-ray Astronomy School 2002 Si and S abundances Baumgartner et al.

X-ray Astronomy School 2002 NGC 4636 Xu et al.

X-ray Astronomy School 2002 Data Analysis Issues Background subtraction Corrections for PSF scattering Accurate response matrix for large regions 2D -> 3D Grating observations

X-ray Astronomy School 2002 Background Subtraction Clusters of galaxies are large objects - they may well cover the entire field of view of the detector. To find a background you need to go to another observation - but the X-ray background varies with position on the sky at energies < 2 keV (see ROSAT all- sky survey maps). The background varies with time - big flares are easy to see and exclude but smaller flares are a problem.

X-ray Astronomy School 2002 Comparison of Schmidt and Majerowicz Markevitch Abell 1835

X-ray Astronomy School 2002 Comparison of two Chandra observations Markevitch Abell 1835

X-ray Astronomy School 2002 Comparison of Chandra and XMM Markevitch Is this discrepancy due to even smaller flares or some other cause ?

X-ray Astronomy School 2002 Corrections for PSF scattering Many clusters have very centrally concentrated X-ray emission. If the telescope has a PSF with significant wings then emission from the cluster core will be scattered to its outer regions. This is a big problem with ASCA and BeppoSAX.

X-ray Astronomy School 2002 Effects of XMM PSF Markevitch I’m writing an XSPEC model to correct for this effect.

X-ray Astronomy School 2002 Accurate response matrix for large regions You often want to extract spectra from large regions (ie many times the telescope resolution). However the instrument response may vary significantly over the region. It should be possible to produce an average response for the region but it is not clear to me whether this is reliable for Chandra at present.

X-ray Astronomy School D -> 3D Clusters are optically-thin 3-D objects. We would like to determine properties in 3-D but we observe them projected onto 2-D. For regular shapes it is possible to derive 3-D information from the 2-D observation. (There is a helpful XSPEC model called projct) But Chandra is showing us that there are many irregularities (at least in the cluster core). How do we derive 3-D information in this case ?

X-ray Astronomy School 2002 Grating observations Gratings operate by dispersing a source along a line. If the source is a point this is straightforward. If the source is extended then the spatial and spectral dimensions get mixed together. The XMM grating does work very well for concentrated sources like the cores of clusters but the interpretation is non-trivial. A new XSPEC model (rgsxsrc) helps in simple cases. Peterson et al. have developed a Monte Carlo code which predicts XMM spectra from 3-D properties of the cluster.