148 research outputs found
Temperature and Metallicity in the Intra-cluster Medium of ABELL 262 observed with Suzaku
We studied the temperature and abundance distributions of intra-cluster
medium (ICM) in the Abell 262 cluster of galaxies observed with Suzaku. Abell
262 is a bright, nearby poor cluster with ICM temperature of ~2 keV, thus
providing useful information about the connection of ICM properties between
groups and clusters of galaxies. The observed spectrum of the central region
was well-represented by two temperature models, and the spectra for the outer
regions were described by single temperature model. With the XIS instrument, we
directly measured not only Si, S, and Fe lines but also O and Mg lines and
obtained those abundances to an outer region of ~0.43 r_180 for the first time.
We found steep gradients for Mg, Si, S, and Fe abundances, while O showed
almost flat abundance distribution. Abundance ratios of alpha-elements to Fe
were found to be similar to those of the other clusters and groups. We
calculated the number ratio of type II to type Ia supernovae for the ICM
enrichment to be 3.0 +- 0.6 within 0.1 r_180, and the value was consistent with
those for other clusters and groups. We also calculated metal mass-to-light
ratios (MLRs) for Fe, O and Mg (IMLR, OMLR, MMLR) with B-band and K-band
luminosities of the member galaxies of Abell 262. The derived MLRs were
comparable to those for other clusters with kT = 3-4 keV.Comment: 12 pages, 8 figures, accepted for publication in PAS
Self-similarity of temperature profiles in distant galaxy clusters: the quest for a Universal law
We present the XMM-Newton temperature profiles of 12 bright clusters of
galaxies at 0.4<z<0.9, with 5<kT<11 keV. The normalized temperature profiles
(normalized by the mean temperature T500) are found to be generally
self-similar. The sample was subdivided in 5 cool-core (CC) and 7 non cool-core
(NCC) clusters, by introducing a pseudo-entropy ratio
sigma=(T_IN/T_OUT)X(EM_IN/EM_OUT)^-1/3 and defining the objects with sigma<0.6
as CC clusters and those with sigma>=0.6 as NCC clusters. The profiles of CC
and NCC clusters differ mainly in the central regions, with the latters
exhibiting a marginally flatter central profile. A significant dependence of
the temperature profiles on the pseudo-entropy ratio sigma is detected by
fitting a function of both r and sigma, showing an indication that the outer
part of the profiles becomes steeper for higher values of sigma (i.e.
transitioning towards the NCC clusters). No significant evidence of redshift
evolution could be found within the redshift range sampled by our clusters
(0.4<z<0.9). A comparison of our high-z sample with intermediate clusters at
0.1<z<0.3, showed how both the CC and NCC clusters temperature profiles have
experienced some sort of evolution. This can be due by the fact that higher z
clusters are at less advanced stage of their formation and did not have enough
time to create a relaxed structure, characterized by a central temperature dip
in CC clusters and by flatter profiles in NCC clusters. This is the first time
that a systematic study of the temperature profiles of galaxy clusters at z>0.4
has been attempted, as we were able to define the closest possible relation to
a Universal law for the temperature profiles of galaxy clusters at 0.1<z<0.9,
showing a dependence on both the state of relaxation of the clusters and the
redshift.Comment: 14 pages, 8 figures, A&A in press, minor changes (language editing
The Entire Virial Radius of the Fossil Cluster RXJ1159+5531: I. Gas Properties
Previous analysis of the fossil-group/cluster RXJ1159+5531 with X-ray
observations from a central Chandra pointing and an offset-North Suzaku
pointing indicate a radial intracluster medium (ICM) entropy profile at the
virial radius () consistent with predictions from gravity-only
cosmological simulations, in contrast to other cool-core clusters. To examine
the generality of these results, we present three new Suzaku observations that,
in conjunction with the North pointing, provide complete azimuthal coverage out
to . With two new Chandra ACIS-I observations overlapping the
North Suzaku pointing, we have resolved 50\% of the cosmic X-ray
background there. We present radial profiles of the ICM density, temperature,
entropy, and pressure obtained for each of the four directions. We measure only
modest azimuthal scatter in the ICM properties at between the
Suzaku pointings: 7.6\% in temperature and 8.6\% in density, while the
systematic errors can be significant. The temperature scatter, in particular,
is lower than that studied at for a small number of other
clusters observed with Suzaku. These azimuthal measurements verify that
RXJ1159+5531 is a regular, highly relaxed system. The well-behaved entropy
profiles we have measured for RXJ1159+5531 disfavor the weakening of the
accretion shock as an explanation of the entropy flattening found in other
cool-core clusters but is consistent with other explanations such as gas
clumping, electron-ion non-equilibrium, non-thermal pressure support, and
cosmic ray acceleration. Finally, we mention that the large-scale galaxy
density distribution of RXJ1159+5531 seems to have little impact on its gas
properties near .Comment: Accepted for publication in Ap
XMM-Newton observation of the cluster ZW 1305.4+2941 in the field SA 57
We report the details of an XMM observation of the cluster of galaxies ZW
1305.4+2941 at the intermediate redshift of z=0.241, increasing the small
number of interesting X-ray constraints on properties of ~3 keV systems above
z=0.1. Based on the 45 ks XMM observation, we find that within a radius of 228
kpc the cluster has an unabsorbed X-ray flux of 2.07 +/- 0.06 x 10^{-13}
erg/cm^2/s, a temperature of kT = 3.17 +/-0.19 keV, in good agreement with the
previous ROSAT determination, and an abundance of 0.93 (+0.24,-0.29} solar.
Within r_500 = 723 +/- 6 kpc the rest-frame bolometric X-ray luminosity is L_X
(r_500)= 1.25 +/- 0.16 x 10^{44} erg/s. The cluster obeys the scaling relations
for L_X, T and the velocity dispersion derived at intermediate redshift for kT
< 4 keV, for which we provide new fits for all literature objects. The mass
derived from an isothermal NFW model fit is, M_vir = 2.77 +/- 0.21 x 10^{14}
solar masses, with a concentration parameter, c = 7.9 +/- 0.5.Comment: 9 pages, 7 colour figures, accepted for publication in ApJ. Corrected
typo on the fraction of blue galaxie
The XMM view of the outskirts of galaxy groups
I will present the results of XMM observations on the outskirts of the bright galaxy group NGC 5044 addressing mass, entropy and metal abundances. I will discuss the results that XMM can achieve by exploring the outskirts of groups providing a complementary and fundamental piece of informations to the scenario emerging for the more massive clusters of galaxies
AGN Feedback in Galaxy Groups: the two interesting cases of AWM 4 and NGC 5044
We present AGN feedback in the interesting cases of two groups: AWM 4 and NGC
5044. AWM 4 is characterized by a combination of properties which seems to defy
the paradigm for AGN heating in cluster cores: a flat inner temperature profile
indicative of a past, major heating episode which completely erased the cool
core, as testified by the high central cooling time (> 3 Gyrs) and by the high
central entropy level (~ 50 keV cm^2), and yet an active central radio galaxy
with extended radio lobes out to 100 kpc, revealing recent feeding of the
central massive black hole. A recent Chandra observation has revealed the
presence of a compact cool corona associated with the BCG, solving the puzzle
of the apparent lack of low entropy gas surrounding a bright radio source, but
opening the question of its origin. NGC 5044 shows in the inner 10 kpc a pair
of cavities together with a set of bright filaments. The cavities are
consistent with a recent AGN outburst as also indicated by the extent of dust
and H_alpha emission even though the absence of extended 1.4 GHz emission
remains to be explained. The soft X-ray filaments coincident with H_alpha and
dust emission are cooler than those which do not correlate with optical and
infrared emission, suggesting that dust-aided cooling can contribute to the
overall cooling. For the first time sloshing cold fronts at the scale of a
galaxy group have been observed in this object.Comment: 4 pages, 1 figure, to appear in proceedings of the conference "The
Monster's Fiery Breath: Feedback in Galaxies, Groups, and Clusters", June
2009, Madison Wisconsi
Ni abundance in the core of the Perseus Cluster: an answer to the significance of resonant scattering
Using an XMM-Newton observation of the Perseus cluster we show that the
excess in the flux of the 7-8 keV line complex previously detected by ASCA and
BeppoSAX is due to an overabundance of Nickel rather than to an anomalously
high Fe He/Fe He ratio. This observational fact leads to the
main result that resonant scattering, which was assumed to be responsible for
the supposed anomalous Fe He/Fe He ratio, is no longer required.
The absence of resonant scattering points towards the presence of significant
gas motions (either turbulent or laminar) in the core of the Perseus cluster.Comment: 29 pages, 10 bw figures, accepted for publication in the
Astrophysical Journa
A systematic analysis of the XMM-Newton background: III. Impact of the magnetospheric environment
A detailed characterization of the particle induced background is fundamental
for many of the scientific objectives of the Athena X-ray telescope, thus an
adequate knowledge of the background that will be encountered by Athena is
desirable. Current X-ray telescopes have shown that the intensity of the
particle induced background can be highly variable. Different regions of the
magnetosphere can have very different environmental conditions, which can, in
principle, differently affect the particle induced background detected by the
instruments. We present results concerning the influence of the magnetospheric
environment on the background detected by EPIC instrument onboard XMM-Newton
through the estimate of the variation of the in-Field-of-View background excess
along the XMM-Newton orbit. An important contribution to the XMM background,
which may affect the Athena background as well, comes from soft proton flares.
Along with the flaring component a low-intensity component is also present. We
find that both show modest variations in the different magnetozones and that
the soft proton component shows a strong trend with the distance from Earth.Comment: To appear in Experimental Astronomy. Presented at AHEAD Background
Workshop, 28-30 November 2016. Rome, Ital
A Systematic Analysis of the XMM-Newton Background: I. Dataset and Extraction Procedures
XMM-Newton is the direct precursor of the future ESA ATHENA mission. A study
of its particle-induced background provides therefore significant insight for
the ATHENA mission design. We make use of about 12 years of data, products from
the third XMM-Newton catalog as well as FP7 EXTraS project to avoid celestial
sources contamination and to disentangle the different components of the
XMM-Newton particle-induced background. Within the ESA R&D AREMBES
collaboration, we built new analysis pipelines to study the different
components of this background: this covers time behavior as well as spectral
and spatial characteristics.Comment: To appear in Experimental Astronomy, presented at AHEAD Background
Workshop, 28-30 November 2016, Rome, Italy. 12 pages, 6 figure
- …