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Properties of gas and dark matter in X-ray galaxy clusters with Sunyaev Zel'dovich measurementsMorandi, Andrea <1979> 28 March 2008 (has links)
I have studied entropy profiles obtained in a sample of 24 X-ray objects at high
redshift retrieved from the Chandra archive. I have discussed the scaling
properties of the entropy S, the correlation between metallicity Z and S, the
profiles of the temperature of the gas, Tgas, and performed a comparison between the
dark matter 'temperature' and Tgas in order to constrain the non-gravitational
processes which affect the thermal history of the gas. Furthermore I have studied
the scaling relations between the X-ray quantities and Sunyaev Zel'dovich
measurements. I have observed that X-ray laws are steeper than the relations
predicted from the adiabatic model. These deviations from expectations based on
self-similarity are usually interpreted in terms of feedback processes leading to
non-gravitational gas heating, and suggesting a scenario in which the ICM at higher
redshift has lower both X-ray luminosity and pressure in the central regions than
the expectations from self-similar model. I have also investigated a Bayesian X-ray
and Sunyaev Zel'dovich analysis, which allows to study the external regions of the
clusters well beyond the volumes resolved with X-ray observations (1/3-1/2 of the
virial radius), to measure the deprojected physical cluster properties, like
temperature, density, entropy, gas mass and total mass up to the virial radius.
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Modeling the cosmological co-evolution of supermassive black holes and galaxiesMarulli, Federico <1980> 28 March 2008 (has links)
In this Thesis, we investigate the cosmological co-evolution of supermassive black holes (BHs), Active Galactic Nuclei (AGN) and their hosting dark matter (DM) halos and galaxies, within the standard CDM scenario. We analyze both analytic, semi-analytic and hybrid techniques and use the most
recent observational data available to constrain the assumptions underlying our models. First, we focus on very simple analytic models where the assembly of BHs is directly related to the merger history of DM haloes. For this
purpose, we implement the two original analytic models of Wyithe & Loeb 2002 and Wyithe & Loeb 2003, compare their predictions to the AGN luminosity function and clustering data, and discuss possible modifications to
the models that improve the match to the observation. Then we study more sophisticated semi-analytic models in which however the baryonic physics is neglected as well. Finally we improve the hybrid simulation of De Lucia & Blaizot 2007, adding new semi-analytical prescriptions to describe the BH
mass accretion rate during each merger event and its conversion into radiation, and compare the derived BH scaling relations, fundamental plane and mass function, and the AGN luminosity function with observations.
All our results support the following scenario:
• The cosmological co-evolution of BHs, AGN and galaxies can be well
described within the CDM model.
• At redshifts z & 1, the evolution history of DM halo fully determines the overall properties of the BH and AGN populations. The AGN emission is triggered mainly by DM halo major mergers and, on average, AGN shine at their Eddington luminosity.
• At redshifts z . 1, BH growth decouples from halo growth. Galaxy major mergers cannot constitute the only trigger to accretion episodes in this phase.
• When a static hot halo has formed around a galaxy, a fraction of the hot gas continuously accretes onto the central BH, causing a low-energy “radio” activity at the galactic centre, which prevents significant gas
cooling and thus limiting the mass of the central galaxies and quenching the star formation at late time.
• The cold gas fraction accreted by BHs at high redshifts seems to be larger than at low redshifts.
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X-Ray studies of the physics of matter around super-massive black-holes in nearby Seyfert galaxiesDadina, Mauro <1969> 07 April 2009 (has links)
Seyfert galaxies are the closest active galactic nuclei. As such, we can use
them to test the physical properties of the entire class of objects. To investigate
their general properties, I took advantage of different methods of data analysis. In
particular I used three different samples of objects, that, despite frequent overlaps,
have been chosen to best tackle different topics: the heterogeneous BeppoS AX
sample was thought to be optimized to test the average hard X-ray (E above 10 keV)
properties of nearby Seyfert galaxies; the X-CfA was thought the be optimized to
compare the properties of low-luminosity sources to the ones of higher luminosity
and, thus, it was also used to test the emission mechanism models; finally, the
XMM–Newton sample was extracted from the X-CfA sample so as to ensure a
truly unbiased and well defined sample of objects to define the average properties
of Seyfert galaxies.
Taking advantage of the broad-band coverage of the BeppoS AX MECS and
PDS instruments (between ~2-100 keV), I infer the average X-ray spectral propertiesof nearby Seyfert galaxies and in particular the photon index (<Gamma>~1.8), the
high-energy cut-off (<Ec>~290 keV), and the relative amount of cold reflection
(<R>~1.0). Moreover the unified scheme for active galactic nuclei was positively
tested. The distribution of isotropic indicators used here (photon index, relative
amount of reflection, high-energy cut-off and narrow FeK energy centroid) are
similar in type I and type II objects while the absorbing column and the iron line
equivalent width significantly differ between the two classes of sources with type
II objects displaying larger absorbing columns. Taking advantage of the XMM–Newton and X–CfA samples I also deduced from measurements that 30 to 50%
of type II Seyfert galaxies are Compton thick.
Confirming previous results, the narrow FeK line is consistent, in Seyfert 2
galaxies, with being produced in the same matter responsible for the observed obscuration.
These results support the basic picture of the unified model. Moreover,
the presence of a X-ray Baldwin effect in type I sources has been measured using
for the first time the 20-100 keV luminosity (EW proportional to L(20-100)^(−0.22±0.05)). This finding
suggests that the torus covering factor may be a function of source luminosity,
thereby suggesting a refinement of the baseline version of the unifed model itself.
Using the BeppoSAX sample, it has been also recorded a possible correlation
between the photon index and the amount of cold reflection in both type I
and II sources. At a first glance this confirms the thermal Comptonization as the
most likely origin of the high energy emission for the active galactic nuclei. This
relation, in fact, naturally emerges supposing that the accretion disk penetrates, depending
to the accretion rate, the central corona at different depths (Merloni et al. 2006): the higher accreting systems hosting disks down to the last stable orbit while
the lower accreting systems hosting truncated disks. On the contrary, the study of
the well defined X–C f A sample of Seyfert galaxies has proved that the intrinsic X-ray
luminosity of nearby Seyfert galaxies can span values between 10^(38−43) erg s^−1,
i.e. covering a huge range of accretion rates. The less efficient systems have been
supposed to host ADAF systems without accretion disk. However, the study of the
X–CfA sample has also proved the existence of correlations between optical emission
lines and X-ray luminosity in the entire range of L_(X) covered by the sample.
These relations are similar to the ones obtained if high-L objects are considered.
Thus the emission mechanism must be similar in luminous and weak systems.
A possible scenario to reconcile these somehow opposite indications is assuming
that the ADAF and the two phase mechanism co-exist with different relative
importance moving from low-to-high accretion systems (as suggested by the Gamma vs.
R relation). The present data require that no abrupt transition between the two
regimes is present.
As mentioned above, the possible presence of an accretion disk has been tested
using samples of nearby Seyfert galaxies. Here, to deeply investigate the flow patterns
close to super-massive black-holes, three case study objects for which enough
counts statistics is available have been analysed using deep X-ray observations
taken with XMM–Newton. The obtained results have shown that the accretion
flow can significantly differ between the objects when it is analyzed with the appropriate
detail. For instance the accretion disk is well established down to the
last stable orbit in a Kerr system for IRAS 13197-1627 where strong light bending
effect have been measured. The accretion disk seems to be formed spiraling in
the inner ~10-30 gravitational radii in NGC 3783 where time dependent and recursive modulation
have been measured both in the continuum emission and in the broad emission line
component. Finally, the accretion disk seems to be only weakly detectable in rk
509, with its weak broad emission line component.
Finally, blueshifted resonant absorption lines have been detected in all three
objects. This seems to demonstrate that, around super-massive black-holes, there is
matter which is not confined in the accretion disk and moves along the line of sight
with velocities as large as v~0.01-0.4c (whre c is the speed of light). Wether this
matter forms winds or blobs is still matter of debate together with the assessment
of the real statistical significance of the measured absorption lines. Nonetheless,
if confirmed, these phenomena are of outstanding interest because they offer new
potential probes for the dynamics of the innermost regions of accretion flows, to
tackle the formation of ejecta/jets and to place constraints on the rate of kinetic
energy injected by AGNs into the ISM and IGM. Future high energy missions
(such as the planned Simbol-X and IXO) will likely allow an exciting step forward
in our understanding of the flow dynamics around black holes and the formation of
the highest velocity outflows.
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Shocks and turbulence in simulated large scale structuresVazza, Franco <1979> 07 April 2009 (has links)
No description available.
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EoR in alternative cosmological scenariosCrociani, Daniela <1980> 07 April 2009 (has links)
The aim of this Thesis is to investigate the possibility that the observations related to the epoch
of reionization can probe not only the evolution of the IGM state, but also the cosmological background in which this process occurs. In fact, the history of the IGM ionization is indeed affected
by the evolution of the sources of ionizing photons that, under the assumption of a structure formation paradigm determined by the hierarchic growth of the matter
uctuations, results strongly
dependent on the characteristics of the background universe.
For the purpose of our investigation, we have analysed the reionization history in innovative cosmological frameworks, still in agreement with the recent observational tests related to the SNIa and the CMB probes, comparing our results with the reionization scenario predicted by the commonly used LCDM cosmology. In particular, in this Thesis we have considered two different alternative
universes. The first one is a
at universe dominated at late epochs by a dynamic dark energy component, characterized by an equation of state evolving in time. The second cosmological framework we have assumed is a LCDM characterized by a primordial overdensity field having a non-Gaussian probability distribution.
The reionization scenario have been investigated, in this Thesis, through semi-analytic approaches
based on the hierarichic growth of the matter
uctuations and on suitable assumptions concerning
the ionization and the recombination of the IGM. We make predictions for the evolution and the
distribution of the HII regions, and for the global features of reionization, that can be constrained
by future observations. Finally, we brie
y discuss the possible future prospects of this Thesis work.
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A panchromatic study of stellar populations in Galactic Globular ClustersDalessandro, Emanuele <1981> 31 March 2009 (has links)
The aim of this Thesis is to investigate (i) how common the bimodal Blue Straggler Stars (BSS)
radial distribution is in stellar clusters and (ii) which are the physical processes that can produce
this bimodality.
We discuss possible relations between the properties of the BSS radial distribution and the
dynamical state of the hosting clusters by making use of dynamical models and simulations.
When relevant, we also discuss the possible links with some
cluster "anomalies" and the effects of a massive object (like Imtermediate Mass Black Hole)
in the cluster center.
To this purpose we present the observational multiwavelength studies of the BSS populations and
their radial distributions in 5 GGCs: M5, M55, M2, NGC 2419 and NGC 6388.
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MCAO for Extremely Large Telescopes: the cases of LBT and E-ELTSchreiber, Laura <1981> 31 March 2009 (has links)
Several MCAO systems are under study to improve the angular resolution of the current and of the future generation large ground-based telescopes (diameters in the 8-40 m range). The subject of this PhD Thesis is embedded in this context. Two MCAO systems, in dierent realization phases, are addressed in this Thesis: NIRVANA, the 'double' MCAO system designed for one of the interferometric instruments of LBT, is in the integration and testing phase; MAORY, the future E-ELT MCAO module, is under preliminary study.
These two systems takle the sky coverage problem in two dierent ways. The layer oriented approach of NIRVANA, coupled with multi-pyramids wavefront sensors, takes advantage of the optical co-addition of the signal coming from up to 12 NGS in a annular 2' to 6' technical FoV and up to 8
in the central 2' FoV. Summing the light coming from many natural sources permits to increase the limiting magnitude of the single NGS and to improve considerably the sky coverage. One of the two Wavefront Sensors for the mid-
high altitude atmosphere analysis has been integrated and tested as a stand- alone unit in the laboratory at INAF-Osservatorio Astronomico di Bologna and afterwards delivered to the MPIA laboratories in Heidelberg, where was
integrated and aligned to the post-focal optical relay of one LINC-NIRVANA arm. A number of tests were performed in order to characterize and optimize the system functionalities and performance. A report about this work is
presented in Chapter 2.
In the MAORY case, to ensure correction uniformity and sky coverage, the LGS-based approach is the current baseline. However, since the Sodium layer is approximately 10 km thick, the articial reference source looks elongated,
especially when observed from the edge of a large aperture. On a 30-40 m class telescope, for instance, the maximum elongation varies between few arcsec and 10 arcsec, depending on the actual telescope diameter, on the Sodium layer properties and on the laser launcher position. The centroiding error in a Shack-Hartmann WFS increases proportionally to the elongation (in a photon noise
dominated regime), strongly limiting the performance. To compensate for this effect a straightforward solution is to increase the laser power, i.e. to increase the number of detected photons per subaperture. The scope of Chapter 3 is
twofold: an analysis of the performance of three dierent algorithms (Weighted Center of Gravity, Correlation and Quad-cell) for the instantaneous LGS image position measurement in presence of elongated spots and the determination of the required number of photons to achieve a certain average wavefront error over the telescope aperture. An alternative optical solution to the spot
elongation problem is proposed in Section 3.4. Starting from the considerations presented in Chapter 3, a first order analysis of the LGS WFS for MAORY (number of subapertures, number of detected photons per subaperture, RON,
focal plane sampling, subaperture FoV) is the subject of Chapter 4. An LGS WFS laboratory prototype was designed to reproduce the relevant aspects of an LGS SH WFS for the E-ELT and to evaluate the performance of different centroid algorithms in presence of elongated spots as investigated numerically and analytically in Chapter 3. This prototype permits to simulate realistic Sodium proles. A full testing plan for the prototype is set in Chapter 4.
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Gravitational waves and cosmic microwave anisotropies: from theory to data analysis for PlanckPaci, Francesco <1980> 07 April 2009 (has links)
No description available.
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Multiwavelength study of GRB emissions and TORTORA projectGreco, Giuseppe <1977> 31 March 2009 (has links)
No description available.
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Astronomical site testing in the era of the extremely large telescopesLombardi, Gianluca <1979> 31 March 2009 (has links)
The quality of astronomical sites is the first step to be considered to have the best performances from the telescopes. In particular, the efficiency of large telescopes in UV, IR, radio etc. is critically dependent on atmospheric transparency. It is well known that the random optical effects induced on the light propagation by turbulent atmosphere also limit telescope’s performances. Nowadays, clear appears the importance to correlate the main atmospheric physical parameters with the optical quality reachable by large aperture telescopes. The sky quality evaluation improved with the introduction of new techniques, new instrumentations and with the understanding of the link between the meteorological (or synoptical parameters and the observational conditions thanks to the application of the theories of electromagnetic waves propagation in turbulent medias: what we actually call astroclimatology. At the present the site campaigns are evolved and are performed using the classical scheme of optical seeing properties, meteorological parameters, sky transparency, sky darkness and cloudiness. New concept are added and are related to the geophysical properties such as seismicity, microseismicity, local variability of the climate, atmospheric conditions related to the ground optical turbulence and ground wind regimes, aerosol presence, use of satellite data. The purpose of this project is to provide reliable methods to analyze the atmospheric properties that affect ground-based optical astronomical observations and to correlate them with the main atmospheric parameters generating turbulence and affecting the photometric accuracy. The first part of the research concerns the analysis and interpretation of longand
short-time scale meteorological data at two of the most important astronomical sites located in very different environments: the Paranal Observatory in the Atacama Desert (Chile), and the Observatorio del Roque de Los Muchachos(ORM) located in La Palma (Canary Islands, Spain). The optical properties of airborne dust at ORM have been investigated collecting outdoor data using a ground-based dust monitor. Because of its dryness, Paranal is a suitable observatory for near-IR observations, thus the extinction properties in the spectral range 1.00-2.30 um have been investigated using an empirical method. Furthermore, this PhD research has been developed using several turbulence profilers in the selection of the site for the European Extremely Large Telescope(E-ELT). During the campaigns the properties of the turbulence at different heights at Paranal and in the sites located in northern Chile and Argentina have been studied. This given the possibility to characterize the surface layer turbulence at Paranal and its connection with local meteorological conditions.
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