Your search keyword '"Bonometto, S"' showing total 371 results

1. Strongly Coupled Dark Energy Cosmologies yielding large mass Primordial Black Holes

Author

Bonometto, S. A., Mainini, R., and Mezzetti, M.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Large primordial Black Hole (PBH) formation is enhanced if strongly coupled scalar and spinor fields ($\Phi$ and $\psi$) are a stable cosmic component since the primeval radiative expansion (SCDEW models). In particular, we show that PBH formation is easier at a specific time, i.e., when the asymptotic mass $m_H$, acquired by the $\psi$ field at the higgs scale, becomes dominant, so that the typical BH mass $M_{BH}$ depends on $m_H$ value. For instance, if $m_H \sim 100\,$ eV $(1$ keV$)$ and the coupling $\beta \sim 8.35 (37)$, PBH with $M_{BH} \simeq 10^7-10^8 $ $(10^3-10^4)\, M_\odot$ could form. The very mechanism enhancing PBH formation also causes technical difficulties to evaluate the transfer function of SCDEW models at high $k$. A tentative solution of this problem leaves only minor discrepancies from $\Lambda$CDM, also at these scales, gradually vanishing for greater $m_H$ values. We conclude that, for suitable parameter choices, SCDEW models could be the real physics underlying $\Lambda$ CDM, so overcoming its fine tuning and coincidence problems, with the extra bonus of yielding large BH seeds., Comment: 15 pages, 15 figures; accepted for publication in MNRAS. Updated to match accepted version

Published

2018

2. Extending the Coyote emulator to dark energy models with standard $w_0$-$w_a$ parametrization of the equation of state

Author

Casarini, L., Bonometto, S. A., Tessarotto, E., and Corasaniti, P. -S.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We discuss an extension of the Coyote emulator to predict non-linear matter power spectra of dark energy (DE) models with a scale factor dependent equation of state of the form w = w_0 + ( 1 - a )w_a . The extension is based on the mapping rule between non-linear spectra of DE models with constant equation of state and those with time varying one originally introduced in ref. [40]. Using a series of N-body simulations we show that the spectral equivalence is accurate to sub-percent level across the same range of modes and redshift covered by the Coyote suite. Thus, the extended emulator provides a very efficient and accurate tool to predict non-linear power spectra for DE models with w_0 - w_a parametrization. According to the same criteria we have developed a numerical code, and we have implemented in a dedicated module for the CAMB code, that can be used in combination with the Coyote Emulator in likelihood analyses of non-linear matter power spectrum measurements. All codes can be found at https://github.com/luciano-casarini/PKequal, Comment: All codes can be found at https://github.com/luciano-casarini/PKequal

Published

2016

3. Strongly Coupled Cosmologies

Author

Bonometto, S. A., Mezzetti, M., Musco, I., Mainini, R., and Maccio', A. V.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Models including an energy transfer from CDM to DE are widely considered in the literature, namely to allow DE a significant high-z density. Strongly Coupled cosmologies assume a much larger coupling between DE and CDM, together with the presence of an uncoupled warm DM component, as the role of CDM is mostly restricted to radiative eras. This allows us to preserve small scale fluctuations even if the warm particle, possibly a sterile neutrino, is quite light, O(100 eV). Linear theory and numerical simulations show that these cosmologies agree with LCDM on supergalactic scales; e.g., CMB spectra are substantially identical. Simultaneously, simulations show that they significantly ease problems related to the properties of MW satellites and cores in dwarfs. SC cosmologies also open new perspectives on early black hole formation, and possibly lead towards unificating DE and inflationary scalar fields., Comment: 4 pages, 6 figures, Proceeding of the "Neutrino Oscillation Workshop" NOW 2014, Conca Specchiulla, Otranto, Italy, 7-14 September 2014

Published

2014

4. Precision cosmology and 7Li data

Author

La Vacca, G., Valotti, A., and Bonometto, S. A.

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

At variance from 2H, 3He and 4He abundances, 7Li abundance data yield an extra constraint to cosmological parameters, in top of those deriving from CMB, BAO, SNIa or H0 data. This constraint, often disregarded, would favor smaller $\Omega_b h^2$ values, also indicating a preference for Dark Energy state equations well in the phantom regime, simultaneously softening the upper limit on the sum of neutrino masses, up to ~1.6eV., Comment: 10 pages, 6 figures, submitted to JCAP

Published

2011

5. High precision spectra at large redshift for dynamical DE cosmologies

Author

Bonometto, S. A., Casarini, L., Maccio', A. V., and Stinson, G.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The next generation mass probes will investigate DE nature by measuring non-linear power spectra at various z, and comparing them with high precision simulations. Producing a complete set of them, taking into account baryon physics and for any DE state equation w(z), would really be numerically expensive. Regularities reducing such duty are essential. This paper presents further n-body tests of a relation we found, linking models with DE state parameter w(z) to const.-w models, and also tests the relation in hydro simulations., Comment: PASCOS 2010, the 16th International Symposium on Particles, Strings and Cosmology, Valencia (Spain), July 19th - 23rd, 2010

Published

2010

6. Do WMAP5 data favor neutrino mass and a coupling between Cold Dark Matter and Dark Energy?

Author

Bonometto, S. A., La Vacca, G., Kristiansen, J. R., Mainini, R., and Colombo, L. P. L.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We fit WMAP5 and related data by allowing for a CDM--DE coupling and non--zero neutrino masses, simultaneously. We find a significant correlation between these parameters, so that simultaneous higher coupling and \nu--masses are allowed. Furthermore, models with a significant coupling and \nu--mass are statistically favoured in respect to a cosmology with no coupling and negligible neutrino mass (our best fits are: C ~ 1/2m_p, m_\nu ~ 0.12eV per flavor). We use a standard Monte Carlo Markov Chain approach, by assuming DE to be a scalar field self--interacting through Ratra--Peebles or SUGRA potentials., Comment: Proceedings of 'Invisible Universe International Conference', Paris, June 29- July 3, 2009

Published

2009

7. Do data favor neutrino mass and a coupling between Cold Dark Matter and Dark Energy?

Author

La Vacca, G., Kristiansen, J. R., Colombo, L. P. L., Mainini, R., and Bonometto, S. A.

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

We allow simultaneously for a CDM--DE coupling and non--zero neutrino masses and find that significant coupling and neutrino mass are (slightly) statistically favoured in respect to a cosmology with no coupling and negligible neutrino mass (our best fits are: C~1/2m_p, m_\nu~0.12eV each flavor). We assume DE to be a self--interacting scalar field and use a standard Monte Carlo Markov Chain approach., Comment: Proceedings of the GGI-Dark Matter and Dark Energy 2009 Workshop

Published

2009

8. Coupling between cold dark matter and dark energy from neutrino mass experiments

Author

Kristiansen, J. R., La Vacca, G., Colombo, L. P. L., Mainini, R., and Bonometto, S. A.

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

We consider cosmological models with dynamical dark energy (dDE) coupled to cold dark matter (CDM), while simultaneously allowing neutrinos to be massive. Using a MCMC approach, we compare these models with a wide range of cosmological data sets. We find a strong correlation between this coupling strength and the neutrino mass. This correlation persists when BAO data are included in the analysis. We add then priors on $\nu$ mass from particle experiments. The claimed detection of $\nu$ mass from the Heidelberg-Moscow neutrinoless double--$\beta$ decay experiment would imply a 7--$8 \sigma$ detection of CDM-DE coupling. Similarly, the detection of $\nu$ mass from coming KATRIN tritium $\beta$ decay experiment will imply a safe detection of a coupling in the dark sector. Previous attempts to accommodate cosmic phenomenology with such possible $\nu$ mass data made recourse to a $w < -1$ eoS. We compare such an option with the coupling option and find that the latter allows a drastic improvement., Comment: 12 pages, accepted for publication in New Astronomy

Published

2009

9. Do WMAP data favor neutrino mass and a coupling between Cold Dark Matter and Dark Energy?

Author

La Vacca, G., Kristiansen, J. R., Colombo, L. P. L., Mainini, R., and Bonometto, S. A.

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

Within the frame of cosmologies where Dark Energy (DE) is a self--interacting scalar field, we allow for a CDM--DE coupling and non--zero neutrino masses, simultaneously. In their 0--0 version, i.e. in the absence of coupling and neutrino mass, these cosmologies provide an excellent fit to WMAP, SNIa and deep galaxy sample spectra, at least as good as \LambdaCDM. When the new degrees of freedom are open, we find that CDM--DE coupling and significant neutrino masses (~0.1eV per \nu species) are at least as likely as the 0--0 option and, in some cases, even statistically favoured. Results are obtained by using a Monte Carlo Markov Chain approach., Comment: 18 pages, 10 figures, submitted to JCAP

Published

2009

10. Higher neutrino mass allowed if Cold Dark Matter and Dark Energy are coupled

Author

La Vacca, G., Bonometto, S. A., and Colombo, L. P. L.

Subjects

Astrophysics

Abstract

Cosmological limits on neutrino masses are softened, by more than a factor 2, if Cold Dark Matter (CDM) and Dark Energy (DE) are coupled. In turn, a neutrino mass yielding $\Omega_\nu$ up to $\sim0.20$ allows coupling levels $\beta \simeq 0.15, $ or more, already easing the coincidence problem. The coupling, in fact, displaces both $P(k)$ and $C_l$ spectra in a fashion opposite to neutrino mass. Estimates are obtained through a Fisher--matrix technique., Comment: 22 pages, 9 figures. Added appendix and references, corrected typos. Version to appear in New Astronomy

Published

2008

11. The Dark Side and its Nature

Author

Bonometto, S. A., Mainini, R., and Colombo, L. P. L.

Subjects

Astrophysics

Abstract

Although the cosmic concordance cosmology is quite successful in fitting data, fine tuning and coincidence problems apparently weaken it. We review several possibilities to ease its problems, by considering various kinds of dynamical Dark Energy and possibly its coupling to Dark Matter, trying to set observational limits on Dark Energy state equation and coupling., Comment: Proceedings of the workshop dsu2006, "The dark side of the Universe", Madrid, June 20-24, 2006

Published

2006

12. Tracing the Nature of Dark Energy with Galaxy Distribution

Author

Solevi, P., Mainini, R., Bonometto, S. A., Maccio', A. V., Klypin, A., and Gottloeber, S.

Subjects

Astrophysics

Abstract

Dynamical Dark Energy (DE) is a viable alternative to the cosmological constant. Yet, constructing tests to discriminate between Lambda and dynamical DE models is difficult because the differences are not large. In this paper we explore tests based on the galaxy mass function, the void probability function (VPF), and the number of galaxy clusters. At high z the number density of clusters shows large differences between DE models, but geometrical factors reduce the differences substantially. We find that detecting a model dependence in the cluster redshift distribution is a hard challenge. We show that the galaxy redshift distribution is potentially a more sensitive characteristics. We do so by populating dark matter halos in Nbody simulations with galaxies using well-tested Halo Occupation Distribution (HOD). We also estimate the Void Probability Function and find that, in samples with the same angular surface density of galaxies in different models, the VPF is almost model independent and cannot be used as a test for DE. Once again, geometry and cosmic evolution compensate each other. By comparing VPF's for samples with fixed galaxy mass limits, we find measurable differences., Comment: 12 pages, 11 figures, dependence on mass-luminosity relation discussed, minor changes to match the accepted version by MNRAS

Published

2005

13. The Nature of Dark Energy from deep Cluster Abundance

Author

Solevi, P., Mainini, R., and Bonometto, S. A.

Subjects

Astrophysics

Abstract

We show that using the redshift dependence of the deep cluster abundance to detect the nature of Dark Energy is a serious challenge. We compare the expected differences between flat LCDM models, with different Omega_mo, with the difference between LCDM and dynamical DE models. In the former case, cluster abundances in comoving volume and geometrical factors act in the same direction, yielding a significant difference between the expected angular densities. On the contrary, when we keep a constant Omega_mo and change the DE nature,abundances in comoving volume and geometrical factors act in the opposite direction, so that the expected differences in angular densities reduce to small factors., Comment: 12 pages, 4 figures; submitted to ApJ

Published

2004

14. Cosmic Microwave Background Polarization and reionization: constraining models with a double reionization

Author

Colombo, L. P. L., Bernardi, G., Casarini, L., Mainini, R., Bonometto, S. A., Carretti, E., and Fabbri, R.

Subjects

Astrophysics

Abstract

Neutral hydrogen around high-z QSO and an optical depth tau ~ 0.17 can be reconciled if reionization is more complex than a single transition at z ~ 6-8. Tracing its details could shed a new light on the first sources of radiation. Here we discuss how far such details can be inspected through planned experiments on CMB large-scale anisotropy and polarization, by simulating an actual data analysis. By considering a set of double reionization histories of Cen (2003) type, a relevant class of models not yet considered by previous works, we confirm that large angle experiments rival high resolution ones in reconstructing the reionization history. We also confirm that reionization histories, studied with the prior of a single and sharp reionization, yield a biased tau, showing that this bias is generic. We further find a monotonic trend in the bias for the models that we consider, and propose an explanation of the trend, as well as the overall bias. We also show that in long-lived experiments such a trend can be used to discriminate between single and double reionization patterns., Comment: 8 pages, 11 figures. Substantial rewriting, replaced with accepted version. To be published in A&A

Published

2004

15. The Sky Polarization Observatory

Author

Cortiglioni, S., Bernardi, G., Carretti, E., Casarini, L., Cecchini, S., Macculi, C., Ramponi, M., Sbarra, C., Monari, J., Orfei, A., Poloni, M., Poppi, S., Boella, G., Bonometto, S., Colombo, L., Gervasi, M., Sironi, G., Zannoni, M., Baralis, M., Peverini, O. A., Tascone, R., Virone, G., Fabbri, R., Natale, V., Nicastro, L., Ng, K-W., Vinyajkin, E. N., Razin, V. A., Sazhin, M. V., Strukov, I. A., and Negri, B.

Subjects

Astrophysics

Abstract

SPOrt is an ASI-funded experiment specifically designed to measure the sky polarization at 22, 32 and 90 GHz, which was selected in 1997 by ESA to be flown on the International Space Station. Starting in 2006 and for at least 18 months, it will be taking direct and simultaneous measurements of the Stokes parameters Q and U at 660 sky pixels, with FWHM=7 degrees. Due to development efforts over the past few years, the design specifications have been significantly improved with respect to the first proposal. Here we present an up-to-date description of the instrument, which now warrants a pixel sensitivity of 1.7 microK for the polarization of the cosmic background radiation, assuming two years of observations. We discuss SPOrt scientific goals in the light of WMAP results, in particular in connection with the emerging double-reionization cosmological scenario., Comment: 53 pages, 22 figures, 1 reference replaced

Published

2004

16. Polarization Measures And Nature Of Dark Energy

Author

Colombo, L. P. L., Mainini, R., and Bonometto, S. A.

Subjects

Astrophysics

Abstract

Polarization measures, on wide angular scales, together with anisotropy data, can fix DE parameters. Here we discuss the sensitivity needed to provide significant limits. Our analysis puts in evidence that a class of models predicts low correlation or anticorrelation between polarization and anisotropy at low l. This class includes open models and models with DE due to a Ratra--Peebles (RP) potential. Results on this point, given in a previous paper of ours, are updated and partially corrected. We outline that, with the sensitivity of experiments like SPOrt or WMAP, high values of Lambda (energy scale in the RP potential) can be excluded. With the sensitivity expected for PLANCK, the selection will extend to much lower Lambda's., Comment: 5 pages, 3 figures, to appear in the proceedings of the Marseille 2003 Meeting, 'When Cosmology and Fundamental Physics meet'

Published

2003

17. Structure Formation in Dynamical Dark Energy Models

Author

Maccio', A. V., Bonometto, S. A., Mainini, R., and Klypin, A.

Subjects

Astrophysics

Abstract

We perform N-body simulations for models with a DE component. Besides of DE with constant negative state parameter w, we consider DE due to scalar fields, self-interacting through RP or SUGRA potentials. According to our post-linear analysis, at z=0, DM power spectra and halo mass functions do not depend on DE nature. This is welcome, as LCDM fits observations. Halo profiles, instead, are denser than LCDM. For example, the density at 15 kpc of a DE halo with M=10^13 exceeds LCDM by ~45%. Differences, therefore, are small but, however, DE does not ease the problem with cuspy DM profiles. We study also subhalos and find that, at $z=0$, the number of satellites coincides in all DE models. At higher z, DE models show increasing differences from LCDM and among themselves (i.e. in the mass function evolution); this is the obvious pattern to distinguish between different DE state equations., Comment: 4 Pages, 7 Figures, to appear in the proceedings of the congress "Multiwavelenght Cosmology", Mykonos June 17-20

Published

2003

18. Modeling Dynamical Dark Energy

Author

Mainini, R., Maccio', A. V., Bonometto, S. A., and Klypin, A.

Subjects

Astrophysics

Abstract

Cosmological models with different types of Dark Energy are becoming viable alternatives for standard models with the cosmological constant. Yet, such models are more difficult to analyze and to simulate. We present analytical approximations and discuss ways of making simulations for two families of models, which cover a wide range of possibilities and include models with both slow and fast changing ratio w=p\rho. More specifically, we give analytical expressions for the evolution of the matter density parameter Omega_m(z) and the virial density contrast Delta_c at any redshift z. The latter is used to identify halos and to find their virial masses. We also provide an approximation for the linear growth factor of linear fluctuations between redshift z=40 and z=0. This is needed to set the normalization of the spectrum of fluctuations. Finally, we discuss the expected behavior of the halo mass function and its time evolution., Comment: 10 pages, 10 figures ApJ submitted

Published

2003

19. Halo properties in models with dynamical Dark Energy

Author

Klypin, A., Maccio', A. V., Mainini, R., and Bonometto, S. A.

Subjects

Astrophysics

Abstract

We study properties of dark matter halos in a variety of models which include Dark Energy (DE). We consider both DE due to a scalar field self--interacting through Ratra-Peebles or SUGRA potentials, and DE with constant negative w=p\rho >-1. We find that at redshift zero the nonlinear power spectrum of the dark matter, and the mass function of halos, practically do not depend on DE state equation and are almost indistinguishable from predictions of the LCDM model. This is consistent with the nonlinear analysis presented in the accompanying paper. It is also a welcome feature because LCDM models fit a large variety of data. On the other hand, at high redshifts DE models show substantial differences from LCDM and substantial differences among themselves. Halo profiles differ even at z=0. DE halos are denser than LCDM in their central parts because the DE halos collapse earlier. Nevertheless, differences between the models are not so large. For example, the density at 10 kpc of a DE \~10^{13}Msun halo deviates from LCDM by not more than 50%. This, however, means that DE is not a way to ease the problem with cuspy dark matter profiles. Addressing another cosmological problem - abundance of subhalos -- we find that the number of satellites of halos in various DE models does not change relative to the LCDM, when normalized to the same circular velocity of the parent halo. To summarize, the best way to find which DE model fits the observed Universe is to look for evolution of halo properties. For example, the abundance of galaxy groups with mass larger than 10^{13}\Msun at z> 2 can be used to discriminate between the models, and, thus, to constrain the nature of DE., Comment: 10 pages, 8 figures ApJ Submitted

Published

2003

20. Mass of clusters in simulations

Author

Maccio', A. V., Murante, G., and Bonometto, S. A.

Subjects

Astrophysics

Abstract

We show that DM halos, in n--body simulations, have a boundary layer (BL), separating bound from unbound mass. Let T(r) and W(r) be the kinetic and potential energies in shells of halos. We find that, in almost all halos: (i) The virial ratio R=-2T/W has at least one persistent (i.e. resolution independent) minimum r_c, such that, close to it, (ii) the function w=-d log W/d log r has a maximum and (iii) the relation R(r_c)=w(r_c) is almost exactly fulfilled. The radius r_c is the position of BL's, in halos found in simulations of TCDM and LCDM models, run using ART and GADGET codes at various resolutions. We find that 97% of the ~300 halos (per model) with M>4.2 10^14 M_s h^-1 owns a BL. Those with no BL are undergoing major mergings. The mass M_c enclosed in r_c almost coincides with the mass evaluated from velocities, according to virial theorem. Particles at r>r_c are not in virial equilibrium. Using r_c we have a density contrast \Delta_c for each halo. For each mass scale, \Delta_v=178 Omega_m^0.45 is within the range of \Delta_c's, but the spread in \Delta_c is wide and the average \Delta_c is ~25% smaller than the corresponding \Delta_v. The matching of properties derived under the assumption of spherical symmetry is a consequence of violent relaxation destroying features related to previous ellipsoidal non-linear growth. In turn, the spread of final \Delta_c's is an imprint of the different 3-D geometries and of the variable environment during collapses, as suggested by a comparison with Sheth & Tormen analysis., Comment: 19 Pages, 15 figures, ApJ in press

Published

2003

21. Nature of Dark Energy and Polarization Measurements

Author

Mainini, R., Colombo, L. P. L., and Bonometto, S. A.

Subjects

Astrophysics

Abstract

High sensitivity polarization measures, on wide angular scales, together with data on anisotropy, can be used to fix DE parameters. In this paper, first of all, we aim to determine the sensitivity needed to provide significant limits. Our analysis puts in evidence that there is a class of DE models that polarization measures can possibly exclude soon. This class includes models with DE due to a Ratra-Peebles (RP) potential. Using a likelihood analysis, we show that it is possible to distinguish RP models from LCDM and other dynamical DE models, already with the sensitivity of experiments like SPOrt or WMAP, thanks to their negative TE correlation at low-l, when the optical depth tau is sufficiently large. On the contrary, fixing the energy scale Lambda for RP potentials or distinguishing between LCDM and other DE potentials requires a much lower pixel noise, that no planned polarization experiment will achieve. While reviewing this paper after the referee report, the first-year WMAP data were released. WMAP finds large positive anisotropy-polarization correlations at low l; this apparently excludes DE models with RP potentials., Comment: 28 pages, 16 figures, to be published in New Astronomy; replaced with accepted version

Published

2003

22. The BaR-SPOrt Experiment

Author

Zannoni, M., Cortiglioni, S., Bernardi, G., Carretti, E., Cecchini, S., Macculi, C., Morelli, E., Sbarra, C., Ventura, G., Nicastro, L., Monari, J., Poloni, M., Poppi, S., Natale, V., Baralis, M., Peverini, O., Tascone, R., Virone, G., Boscaleri, A., Pascale, E., Boella, G., Bonometto, S., Gervasi, M., Sironi, G., Tucci, M., Nesti, R., Fabbri, R., de Bernardis, P., De Petris, M., Masi, S., Sazhin, M. V., and Vinyajkin, E. N.

Subjects

Astrophysics

Abstract

BaR-SPOrt (Balloon-borne Radiometers for Sky Polarisation Observations) is an experiment to measure the linearly polarized emission of sky patches at 32 and 90 GHz with sub-degree angular resolution. It is equipped with high sensitivity correlation polarimeters for simultaneous detection of both the U and Q stokes parameters of the incident radiation. On-axis telescope is used to observe angular scales where the expected polarization of the Cosmic Microwave Background (CMBP) peaks. This project shares most of the know-how and sophisticated technology developed for the SPOrt experiment onboard the International Space Station. The payload is designed to flight onboard long duration stratospheric balloons both in the Northern and Southern hemispheres where low foreground emission sky patches are accessible. Due to the weakness of the expected CMBP signal (in the range of microK), much care has been spent to optimize the instrument design with respect to the systematics generation, observing time efficiency and long term stability. In this contribution we present the instrument design, and first tests on some components of the 32 GHz radiometer., Comment: 12 pages, 10 figures, Astronomical Telescopes and Instrumentation (Polaimetry in Astronomy) Hawaii August 2002 SPIE Meeting

Published

2003

23. SPOrt: an Experiment Aimed at Measuring the Large Scale Cosmic Microwave Background Polarization

Author

Carretti, E., Cortiglioni, S., Bernardi, G., Cecchini, S., Macculi, C., Sbarra, C., Monari, J., Orfei, A., Poloni, M., Poppi, S., Boella, G., Bonometto, S., Gervasi, M., Sironi, G., Zannoni, M., Tucci, M., Baralis, M., Peverini, O. A., Tascone, R., Virone, G., Fabbri, R., Nicastro, L., Ng, K. -W., Razin, V. A., Vinyajkin, E. N., Sazhin, M. V., and Strukov, I. A.

Subjects

Astrophysics

Abstract

SPOrt (Sky Polarization Observatory) is a space experiment to be flown on the International Space Station during Early Utilization Phase aimed at measuring the microwave polarized emission with FWHM = 7deg, in the frequency range 22-90 GHz. The Galactic polarized emission can be observed at the lower frequencies and the polarization of Cosmic Microwave Background (CMB) at 90 GHz, where contaminants are expected to be less important. The extremely low level of the CMB Polarization signal (< 1 uK) calls for intrinsically stable radiometers. The SPOrt instrument is expressly devoted to CMB polarization measurements and the whole design has been optimized for minimizing instrumental polarization effects. In this contribution we present the receiver architecture based on correlation techniques, the analysis showing its intrinsic stability and the custom hardware development carried out to detect such a low signal., Comment: 9 pages, 5 figures, conference proceeding, to appear in "Polarimetry in Astronomy", SPIE Symposium on 'Astronomical Telescopes and Instrumentation', Waikoloa, August 22-28 2002

Published

2002

24. Cosmic opacity to CMB photons and polarization measurements

Author

Colombo, L. P. L. and Bonometto, S. A.

Subjects

Astrophysics

Abstract

Anisotropy data analysis leaves a significant degeneracy between primeval spectral index (n_s) and cosmic opacity to CMB photons (\tau). Low--l polarization measures, in principle, can remove it. We perform a likelihood analysis to see how cosmic variance possibly affects such a problem. We find that, for a sufficiently low noise level (\sigma_{pix}) and if \tau is not negligibly low, the degeneracy is greatly reduced, while the residual impact of cosmic variance on n_s and \tau determinations is under control. On the contrary, if \sigma_{pix} is too high, cosmic variance effects appear to be magnified. We apply general results to specific experiments and find that, if favorable conditions occur, it is possible that a 2--\sigma detection of a lower limit on \tau is provided by the SPOrt experiment. Furthermore, if the PLANCK experiment will measure polarization with the expected precision, the error on low--l harmonics is adequate to determine \tau, without significant magnification of the cosmic variance. This however indicates that high sensitivity might be more important than high resolution in \tau determinations. We also outline that a determination of \tau is critical to perform detailed analyses on the nature of dark energy and/or on the presence of primeval gravitational waves., Comment: 17 pages, 11 figures, to be published on New Astronomy

Published

2002

25. Non linear predictions from linear theories in models with Dark Energy

Author

Mainini, R., Maccio', A. V., and Bonometto, S. A.

Subjects

Astrophysics

Abstract

We study the cluster mass function and its evolution in different models with Dark Energy arising from a self--interacting scalar field, with Ratra-Peebles and SUGRA potentials. Computations are based on a Press & Schechter approximation. The mass functions we obtain are compared with results holding for open models or models with Dark Energy due to a cosmological constant. Evolution results, in the Dark Energy cases, closely approach open models., Comment: 13 pages, 3 new figures included, references added. Accepted for pubblication in New Astronomy

Published

2002

26. Mass of Clusters in Simulations

Author

Maccio', A. V., Murante, G., and Bonometto, S. A.

Subjects

Astrophysics

Abstract

We show that dark matter haloes, in n--body simulations, have a boundary layer (BL) with precise features. In particular, it encloses all dynamically stable mass while, outside it, dynamical stability is lost soon. Particles can pass through such BL, which however acts as a confinement barrier for dynamical properties. BL is set by evaluating kinetic and potential energies (T(r) and W(r)) and calculating R=-2T/W. Then, on BL, R has a minimum which closely approaches a maximum of w= -dlog W/dlog r. Such $Rw$ ``requirement'' is consistent with virial equilibrium, but implies further regularities. We test the presence of a BL around haloes in spatially flat CDM simulations, with or without cosmological constant. We find that the mass M_c, enclosed within the radius r_c, where the $Rw$ requirement is fulfilled, closely approaches the mass M_{dyn}, evaluated from the velocities of all particles within r_c, according to the virial theorem. Using r_c we can then determine an individual density contrast Delta_c for each virialized halo, which can be compared with the "virial" density contrast $\Delta_v ~178 \Omega_m^{0.45}$ (Omega_m: matter density parameter) obtained assuming a spherically symmetric and unperturbed fluctuation growth. The spread in Delta_c is wide, and cannot be neglected when global physical quantities related to the clusters are calculated, while the average Delta_c is ~25 % smaller than the corresponding Delta_v; moreover if $M_{dyn}$ is defined from the radius linked to Delta_v, we have a much worse fit with particle mass then starting from {\it Rw} requirement., Comment: 4 pages, 5 figures, contribution to the XXXVIIth Rencontres de Moriond, The Cosmological Model, Les Arc March 16-23 2002, to appear in the proceedings

Published

2002

27. Constraining Lambda using cluster quadrupoles

Author

Maccio`, A., Gardini, A., Ghigna, S., and Bonometto, S. A.

Subjects

Astrophysics

Abstract

We examine how the statistics of the quadrupoles of (projected) cluster masses can discriminate between flat cold dark matter (CDM) universes with or without a cosmological constant term. Even in the era of high precision cosmology that cosmic microwave background experiments should open soon, it is important to devise self consistency tests of cosmogonic theories tuned at the matter radiation decoupling epoch using data from the non--linear evolved universe. We build cluster catalogs from two large volume simulations of a ``tilted'' CDM model and a $\Lambda$CDM model with cosmic density parameter $\Omega_m=0.35$ and cosmological constant contribution $\Omega_\Lambda=0.65$. From the projected mass distribution of the clusters we work out the quadrupoles Q and examine their dependence on cluster mass and the cosmological model. We find that TCDM clusters have systematically larger quadrupoles than their \lcdm counterpart. The effect is mass dependent: massive clusters ($M\gsim 10^{15}\Msunh$) have quadrupoles differing by more than 30% in the two models, while for $M\lsim 4\times10^{14}\Msunh$ the difference rapidly drops to $\sim 1$%. Performing a K-S test of the Q distributions, we estimate that using just the 15 most massive clusters in the simulation volume ($360\Mpch$ a side) we can discriminate between TCDM and \lcdm at a confidence level better than 99.9%. In the volume probed by exhisting observations, there are potentially several hundred clusters with masses above the threshold for which the differences in the quadrupoles become relevant. Should weak lensing data become available for this whole set, a quadrupole analysis may be expected to discriminate among different values of $\Lambda$., Comment: 8 pages, 4 figures. Accepted for pubblication in ApJ

Published

2001

28. Cluster Correlation in Mixed Models

Author

Gardini, A., Bonometto, S. A., Murante, G., and Yepes, G.

Subjects

Astrophysics

Abstract

We evaluate the dependence of the cluster correlation length r_c on the mean intercluster separation D_c, for three models with critical matter density, vanishing vacuum energy (Lambda = 0) and COBE normalized: a tilted CDM (tCDM) model (n=0.8) and two blue mixed models with two light massive neutrinos yielding Omega_h = 0.26 and 0.14 (MDM1 and MDM2, respectively). All models approach the observational value of sigma_8 (and, henceforth, the observed cluster abundance) and are consistent with the observed abundance of Damped Lyman_alpha systems. Mixed models have a motivation in recent results of neutrino physics; they also agree with the observed value of the ratio sigma_8/sigma_25, yielding the spectral slope parameter Gamma, and nicely fit LCRS reconstructed spectra. We use parallel AP3M simulations, performed in a wide box (side 360/h Mpc) and with high mass and distance resolution, enabling us to build artificial samples of clusters, whose total number and mass range allow to cover the same D_c interval inspected through APM and Abell cluster clustering data. We find that the tCDM model performs substantially better than n=1 critical density CDM models. Our main finding, however, is that mixed models provide a surprisingly good fit of cluster clustering data., Comment: 22 pages + 10 Postscript figures. Accepted for publication in ApJ

Published

2000

29. Morphological evolution of X-ray clusters using hydrodynamical simulations

Author

Valdarnini, R., Ghizzardi, S., and Bonometto, S.

Subjects

Astrophysics

Abstract

A large set of TREESPH simulations is used to test the global morphology of galaxy clusters and its evolution against X-ray data. A powerful method to investigate substructures in galaxy clusters are the power ratios introduced by Buote & Tsai. We consider three flat cosmological models: CDM, LCDM($\Omega_\Lambda = 0.7$) and CHDM($\Omega_h = 0.2$, 1 massive $\nu$), all normalized so to fit the observed number of clusters. For each model we built 40 clusters, using a TREESPH code, and performed a statistical comparison with a data sample including nearby clusters observed with ROSAT PSPC instrument. The comparison disfavors the LCDM model, as clusters appear too relaxed, while CDM and CHDM clusters, in which a higher degree of complexity occurs, seem to be closer to observations. A better fit of data can be expected for some different DM mix. If DM distributions are used instead of baryons, we find substructures more pronounced than in gas and models have a different score. Using hydrodynamical simulations is therefore essential to our aims., Comment: 4 pages, To appear in "LSS in the X-ray Universe", Santorini 20-22 September 1999

Published

2000

30. Limber equation for luminosity dependent correlations

Author

Gardini, A., Bonometto, S. A., and Maccio`, A.

Subjects

Astrophysics

Abstract

The passage from angular to spatial correlations, in the case of spatial clustering length depending on the average distance between nearby objects is studied. We show that, in a number of cases, the scaling law of angular correlation amplitudes, which holds for constant spatial clustering length, is still true also for a luminosity dependent spatial correlation. If the Limber equation is then naively used to obtain `the' spatial clustering length from the angular function amplitude, a quantity close to the average object separation is obtained. The case of cluster clustering is explicitly considered., Comment: 10 pages, LaTeX, no figures, Accepted for publication in New Astronomy

Published

1999

31. Cluster mass function in mixed models

Author

Gardini, A., Bonometto, S. A., and Murante, G.

Subjects

Astrophysics

Abstract

We study the cluster mass function in mixed dark matter (MDM) models, using two COBE normalized simulations with Omega_h = 0.26 and n=1.2, and Omega_h = 0.14 and n = 1.05, both with 2 massive nu's (MDM1 and MDM2, respectively). For the sake of comparison, we also simulate a CDM model with spectral index n=0.8 (TCDM), also COBE normalized. We argue that, in our non--hydro simulations, where CDM particles describe both actual CDM and baryons, the galaxy distribution traces CDM particles. Therefore, we use them to define clusters and their velocities to work out cluster masses. As CDM particles are more clustered than HDM and therefore have, in average, greater velocities, this leads to significant differences from PS predictions. Such predictions agree with simulations if both HDM and CDM are used to define clusters. Clusters defined through CDM in MDM models, instead, are less numerous than PS estimates, by a factor ~0.3, at the low mass end; the factor becomes \~0.6-0.8, depending on the mix, on intermediate mass scales (~4-5, h^-1 10^14 Msun) and almost vanishes on the high mass end. Therefore: (i) MDM models expected to overproduce clusters over intermediate scales are viable; (ii) the greater reduction factor at small scales agrees with the observational data dependence on the cluster mass M (which, however, may be partially due to sample incompleteness); (iii) the higher spectral normalization is felt at large scales, where MDM models produce more objects (hence, large clusters) than CDM. MDM1 even exceeds Donahue et al. (1998) findings, while MDM2 is consistent with them. (abridged), Comment: 43 pages + 14 figures, accepted for publication in ApJ

Published

1999

32. Global cluster morphology and its evolution: X-ray data vs CDM, LCDM and mixed models

Author

Valdarnini, R., Ghizzardi, S., and Bonometto, S. A.

Subjects

Astrophysics

Abstract

The global structure of galaxy clusters and its evolution are tested within a large set of TREESPH simulations, so to allow a fair statistical comparison with available X-ray data. Structure tests are based on the "power ratios", introduced by Buote & Tsai. Cosmological models considered are CDM, LCDM (Omega_L=0.7) and CHDM (1 mass.neu., Omega_h = 0.2). All models are normalized to provide a fair number density of clusters. For each model we run a P3M simulation in a large box, where we select the most massive 40 clusters. Going back to the initial redshift we run a hydro-TREESPH simulation for each of them. In this way we perform a statistical comparison of the global morphology of clusters, for each cosmological model, with ROSAT data, using Student t-test, F-test and K-S test. The last test and its generalization to 2--D distributions are also used to compare the joint distributions of 2 or 3 power ratios. We find that, using DM distribution, instead of gas, as done by some authors, leads to biased results, as baryons are distributed in a less structured way than DM. We also find that the cosmological models considered have different behaviours in these tests: LCDM has the worst performance. CDM and our CHDM have similar scores. The general trend of power ratio distributions is already fit by these models, but a further improvement is expected either from a different DM mix or a non-flat CDM model., Comment: 29 pages (LaTeX,macros included), 9 figure.ps & 3 tables included. To appear on New Astronomy

Published

1999

33. CMB and Large Scale Structure as a test of Mixed Models with n>1

Author

Pierpaoli, E. and Bonometto, S. A.

Subjects

Astrophysics

Abstract

We compute CBR anisotropies in mixed models with different hot components, including neutrinos or volatile HDM arising from the decay of heavier particles. The CBR power spectra of these models exhibit a higher doppler peak than CDM, and the discrepancy is even stronger in volatile models when the decay gives rise also to a neutral scalar. CBR experiments, together with Large Scale Structure (LSS) data, are then used to constrain the space parameter of mixed models, when values of the primeval spectral index n > 1 are also considered. Even if n>1 is allowed, however, LSS alone prescribes that \Omega_h \mincir 0.30. LSS can be fitted by taking simultaneously a low derelativization redshift z_der (down to \simeq 600) and a high n, while CBR data from baloon--borne experiment cause a severe selection on this part of the parameter space. In fact, while late derelativization and $n>1$ have opposite effects on the fluctuation spectrum P(k), they sum their action on the angular spectrum C_l. Henceforth n \magcir 1.3 seems excluded by baloon--borne experiment outputs, while a good fit of almost all CBR and LSS data is found for Omega_h values between 0.11 and 0.16, n \sim 1.1 and z_der \sim 2000--5000. A smaller n is allowed, but z_der should never be smaller than \simeq 1200., Comment: 13 pages, 15 figures, uses mn.sty, submitted to MNRAS

Published

1998

34. Mixed Models with n>1 and Large Scale Structure constraints

Author

Bonometto, S. A. and Pierpaoli, E.

Subjects

Astrophysics

Abstract

Recent data on CBR anisotropies show a Doppler peak higher than expected in CDM cosmological models, if the spectral index $n=1$. However, CDM and LCDM models with n>1 can hardly be consistent with LSS data. Mixed models, instead, whose transfer function is naturally steeper because of free--streaming in the hot component, may become consistent with data if n>1, when Omega_h is large. This is confirmed by our detailed analysis, extended both to models with a hot component whose momentum space distribution had a thermal origin (like massive neutrinos), and to models with a non--cold component arising from heavier particle decay. In this work we systematically search models which fulfill all constraints which can be implemented at the linear level. We find that a stringent linear constraint arises from fitting the extra-power parameter Gamma. Other significant constraints arise comparing the expected abundances of galaxy clusters and high-z systems with observational data. Keeping to models with Gamma \geq 0.13, a suitable part of the space parameter still allows up to \sim 30% of hot component (it is worth outlining that our stringent criteria allow only models with 0.10 \mincir Omega_h \mincir 0.16, if n \leq 1). We also outline that models with such large non--cold component would ease the solution of the so--called baryon catastrophe in galaxy clusters., Comment: 28 pages + 9 figures, uses elsart.sty, to be published in New Astronomy

Published

1998

35. Evolution of Cluster Morphology: X-ray data vs. CDM models

Author

Valdarnini, R., Ghizzardi, S., and Bonometto, S.

Subjects

Astrophysics

Abstract

We compare the evolution of morphology in X-ray cluster data and in clusters obtained in a simulation of flat CDM, normalized to the observed cluster abundance. We find that the evolution rate in model clusters is significantly higher than in data clusters. The results is stricking, as our cluster data are all just for $z \simlt 0.2$, but is not contrary to expectations, as is known that the CDM spectrum is too flat, around the cluster scale, and therefore induces the presence of too many substructures. The cluster simulations were run using a TREESPH code and therefore include hydrodynamical effects. The test we performed, which turns out to be very sensitive, starts from the so--called power ratios introduced by Buote and Tsai, and makes use of the 2--dimensional generalization of the Kolmogorov--Smirnov test. The discrepancy between data and model is however directly visible through linear regression techniques and using simpler statistical tests., Comment: 6 LaTeXp ages, 4 figures and 2 tables. MNRAS submitted

Published

1998

36. Statistical Tests for CHDM and \LambdaCDM Cosmologies

Author

Ghigna, S., Borgani, S., Tucci, M., Bonometto, S. A., Klypin, A., and Primack, J. P.

Subjects

Astrophysics

Abstract

We apply several statistical estimators to high-resolution N-body simulations of two currently viable cosmological models: a mixed dark matter model, having $\Omega_\nu=0.2$ contributed by two massive neutrinos (C+2\nuDM), and a Cold Dark Matter model with Cosmological Constant (\LambdaCDM) with $\Omega_0=0.3$ and h=0.7. Our aim is to compare simulated galaxy samples with the Perseus-Pisces redshift survey (PPS). We consider the n-point correlation functions (n=2-4), the N-count probability functions P_N, including the void probability function P_0, and the underdensity probability function U_\epsilon (where \epsilon fixes the underdensity threshold in percentage of the average). We find that P_0 (for which PPS and CfA2 data agree) and P_1 distinguish efficiently between the models, while U_\epsilon is only marginally discriminatory. On the contrary, the reduced skewness and kurtosis are, respectively, S_3\simeq 2.2 and S_4\simeq 6-7 in all cases, quite independent of the scale, in agreement with hierarchical scaling predictions and estimates based on redshift surveys. Among our results, we emphasize the remarkable agreement between PPS data and C+2\nuDM in all the tests performed. In contrast, the above \LambdaCDM model has serious difficulties in reproducing observational data if galaxies and matter overdensities are related in a simple way., Comment: 12 pages, 10 figures, LaTeX (aaspp4 macro), in press on ApJ, Vol. 479, April 1997

Published

1996

37. Clustering of loose groups and galaxies from the Perseus--Pisces Survey

Author

Battistoni, R. Trasarti, Invernizzi, G., and Bonometto, S.

Subjects

Astrophysics

Abstract

We investigate the clustering properties of loose groups in the Perseus--Pisces redshift Survey (PPS). Previous analyses based on CfA and SSRS surveys led to apparently contradictory results. We investigate the source of such discrepancies, finding satisfactory explanations for them. Furthermore, we find a definite signal of group clustering, whose amplitude $A_G$ exceeds the amplitude $A_g$ of galaxy clustering ($A_G=14.5^{+3.8}_{-3.0}$, $A_g=7.42^{+0.20}_{-0.19}$ for the most significant case; distances are measured in $\hMpc$). Groups are identified with the adaptive Friends--Of--Friends (FOF) algorithms HG (Huchra \& Geller 1982) and NW (Nolthenius \& White 1987), systematically varying all search parameters. Correlation strenght is especially sensitive to the sky--link $D_L$ (increasing for stricter normalization $D_0$), and to the (depth $\mlim$ of the) galaxy data. It is only moderately dependent on the galaxy luminosity function $\phi(L)$, while it is almost insensitive to the redshift--link $V_L$ (both to the normalization $V_0$ and to the scaling recipes HG or NW)., Comment: 28 pages (LaTeX aasms4 style) + 5 Postscript figures ; ApJ submitted on May 4th, 1996; group catalogs available upon request (trasarti@astmiu.uni.mi.astro.it)

Published

1996

38. Void analysis as a test for dark matter composition?

Author

Ghigna, S., Bonometto, S. A., Retzlaff, J., Gottloeber, S., and Murante, G.

Subjects

Astrophysics

Abstract

We use the void probability function to compare the redshift--space galaxy distribution in the Perseus--Pisces survey with artificial samples from N-body simulations of standard cold dark matter (CDM) and broken scale invariance (BSI) models. Galaxies are identified as residing in peaks of the evolved density field in such a way as to reproduce both the observed luminosity and two--point correlation functions. Using a similar approach, it was recently shown that the VPF can discriminate between CDM and a cold+hot dark matter (CHDM) model with cold/hot/baryon fractions = 0.6/0.3/0.1. Our main result is that both CDM (as expected from a previous analysis) and BSI fit observational data. The robustness of the result is checked against changing the observer's position in the simulations and the galaxy identification in the evolved density field. Therefore, while the void statistics is sensitive to the passage from CDM to CHDM (different spectrum and different nature of dark matter), it is not to the passage from CDM to BSI (different spectrum but same dark matter). On such a basis, we conjecture that the distribution of voids could be directly sensitive to the nature of dark matter, but scarcely sensitive to the shape of the transfer function., Comment: 25 pages + 5 figures, AASMS LaTeX, ApJ, 469, in press

Published

1996

39. Phase--space Distribution of Volatile Dark Matter

Author

Ghizzardi, S. and Bonometto, S. A.

Subjects

Astrophysics

Abstract

We discuss the phase--space distribution of $\mu$ neutrinos if $\tau$ neutrinos are unstable and decay into $\nu_\mu + scalar$. If this scalar is a familon or a Majoron, in the generic case the $\nu_\mu$ background is NOT the straightforward overlap of neutrinos of thermal and decay origins. A delay in $\nu_\tau$ decay, due to the Pauli exclusion principle, can modify it in a significant way. We provide the equations to calculate the $\nu_\mu$ distribution and show that, in some cases, there exists a good approximate solution to them. However, even when such solution is not admitted, the equations can be numerically solved following a precise pattern. We give such a solution for a number of typical cases. If $\nu_\mu$ has a mass $\sim 2$ eV and the see--saw argument holds, $\nu_\tau$ must be unstable and the decay into $\nu_\mu + scalar$ is a reasonable possibility. The picture leads to a delayed equivalence redshift, which could allow to reconcile COBE data with a bias parameter $b\ge 1$., Comment: 14 pages, latex. Figures in a separated uuencoded, compressed, tarred PostScript file. Figures are also available upon request

Published

1995

40. Mixed Dark Matter models with a non-thermal hot component: fluctuation evolution

Author

Pierpaoli, E. and Bonometto, S.

Subjects

Astrophysics

Abstract

We calculate the linear evolution for a class of mixed dark matter models, where the hot component derives from the decay of a heavier particle (CntHDM models). These models differ from ordinary mixed models based on massive neutrinos (CHDM models), for which the hot component has a phase space distribution which derives from a thermal one. In CntHDM models the density of the hot component and the derelativisation redshift of its quanta are indipendent parameters. In this work we provide the spectra for a number of CntHDM models, and compare them with CDM and CHDM spectra. If PQ symmetry and SUSY simultaneously hold, the lightest standard neutralino can be expected to decay into axino and photon. We briefly summarise the features of this particle model which gives rise to the cosmological framework discussed here, as a fairly generic consequence. Other frameworks which lead to similar models are also briefly discussed., Comment: 12 pages + figures available upon request, Latex

Published

1994

41. Sizes of Voids as a test for Dark Matter Models

Author

Ghigna, S., Borgani, S., Bonometto, S., Guzzo, L., Klypin, A., Primack, J. R., Giovanelli, R., and Haynes, M.

Subjects

Astrophysics

Abstract

We use the void probability statistics to study the redshift-space galaxy distribution as described by a volume-limited subsample of the Perseus-Pisces survey. We compare the results with the same analysis realized on artificial samples, extracted from high-resolution N-body simulations by reproducing the observational biases of the real data set. Simulations are run for the Cold+HotDM model (CHDM) and for unbiased and biased (b=1.5) CDM models in a 50 Mpc/h box. We identify galaxies as residing in peaks of the evolved density field. We fragment overmerged structures into individual galaxies so as to reproduce both the correct luminosity function (after assuming M/ L values for the resulting galaxy groups) and the two-point correlation function. Our main result is that a void-probability function (VPF) from the standard CHDM model with fractions 60% cold, 30% hot, 10% barions, exceeds the observational VPF with a high confidence level. CDM models produce smaller VPF independent of the biasing parameter. We verify the robustness of this result against changing the observer position in the simulations and the galaxy identification in the evolved density field., Comment: 15 pages, postscript

Published

1994

42. Deviations from Hierarchical Clustering in Real and Redshift Space

Author

Ghigna, S., Bonometto, S. A., Guzzo, L., Giovanelli, R., Haynes, M. P., Klypin, A., and Primack, J. R.

Subjects

Astrophysics

Abstract

We discuss the effects of redshift--space distortions on the estimate of high order galaxy correlation functions. We use both the Perseus--Pisces redshift survey and the results of high--resolution N--body simulations to explore the consequences of working in redshift space on the detection of deviations from hierarchical clustering. Both for real and simulated data, significant deviations from hierarchical clustering seem to be present in real space. Their behaviour is coherent with that expected from an initially biased galaxy field, once the displacement from the sites where galaxies formed, due to the nonlinear gravitational evolution, is taken into account. The passage to redshift space has the net effect of filtering out the higher powers required to fit the distribution in real space. This magnifies the distortions operated by nonlinear evolution on the initial distribution, erasing the residual narrow scale range (2--5~$h^{-1}$Mpc) where deviations from hierarchical clustering are still detectable in real space. We conclude that such deviations can hardly be estimated using data in redshift space., Comment: submitted to ApJ; uuencoded-compressed-tarred PostScript file including figures. Milano Preprint # tbd

Published

1994

43. Non-Linear Clustering in the Cold+Hot Dark Matter Model

Author

Bonometto, S. A., Borgani, S., Ghigna, S., Klypin, A., and Primack, J. R.

Subjects

Astrophysics

Abstract

We use high resolution PM N-body simulations to follow the development of non-linear clustering in a flat Universe, dominated by Cold + Hot Dark Matter (CHDM) with 60% of CDM, 30% of HDM and 10% of baryons; a simulation box of 100 Mpc a side ($h=0.5$) is used. We analyze two CHDM simulations with $b =1.5$ (COBE normalization). We also compare them with CDM simulations with $b=1.5$ and $b=1$. We evaluate high-order correlation functions and the void-probability-function (VPF). Correlation functions are obtained both from counts in cells and counts of neighbors. The analysis is made for DM particles and for galaxies, identified as massive halos in the evolved density field. We also check the effects of dynamical evolution and redshift space distortions. We find that clustering of DM particles exhibits deviations from the hierarchical scaling, which decrease somewhat in redshift space. Galaxies follow hierarchical scaling far more closely, with coefficients S_3=2.5 and S_4=7.5, in general agreement with observational results, just marginally affected by redshift distortions and on the choices for the initial spectra. The hierarchical scaling of galaxy clustering is confirmed by the VPF analysis and in all the cases considered a good agreement with observational results is obtained., Comment: 39 pages and 12 figures

Published

1993

44. Mixed Dark Matter from Axino Distribution

Author

Bonometto, S. A., Gabbiani, F., and Masiero, A.

Subjects

Astrophysics

Abstract

We study the possibility of mixed dark matter obtained through the phase space distribution of a single particle. An example is offered in the context of SUSY models with a Peccei-Quinn symmetry. Axinos in the 100 keV range can naturally have both thermal and non-thermal components. The latter one arises from the lightest neutralino decays and derelativizes at z ~ 10^4., Comment: Figures added, references fixed. Version accepted for publication on Phys. Rev. D. LaTeX. 9 pages, 3 figures, uses epsfig.sty

Published

1993

45. BaR-SPOrt: Balloon-Borne Radiometers for Sky Polarization Observations

Author

Sbarra, C., Cortiglioni, S., Bernardi, G., Carretti, E., Cecchini, S., Macculi, C., Ventura, G., Baralis, M., Peverini, O., Tascone, R., Boella, G., Bonometto, S., Gervasi, M., Sironi, G., Tucci, M., Zannoni, M., Natale, V., Nesti, R., Fabbri, R., Monari, J., Poppi, S., Nicastro, L., Raffaele, R. Di, Boscaleri, A., Pascale, E., Bernardis, P. de, Petris, M. De, Masi, S., Sazhin, M. V., Vinyajkin, E. N., Shaver, Peter A., editor, DiLella, Luigi, editor, and Giménez, Alvaro, editor

Published

2003

46. The Sky Polarization Observatory (SPOrt) Programme

Author

Carretti, E., Cortiglioni, S., Bernardi, G., Cecchini, S., Macculi, C., Sbarra, C., Monari, J., Orfei, A., Poppi, S., Boella, G., Bonometto, S., Gervasi, M., Sironi, G., Zannoni, M., Tucci, M., Baralis, M., Peverini, O. A., Tascone, R., Fabbri, R., Nicastro, L., Ng, K. W., Razin, V. A., Vinyajkin, E. N., Sazhin, M. V., Strukov, I. A., Shaver, Peter A., editor, DiLella, Luigi, editor, and Giménez, Alvaro, editor

Published

2003

47. Structure Formation in Dynamical Dark Energy Models

Author

Macció, A. V., primary, Bonometto, S. A., additional, Mainini, R., additional, and Klypin, A., additional

Published

2004

48. Cosmologies with massive neutrinos and large value of hubble constant

Author

Bonometto, S. A.

Published

1995

49. This title is unavailable for guests, please login to see more information.

Author

Macciò, A, Mainini, R, Penzo, C, Bonometto, S, Bonometto, S., MAININI, ROBERTO, Macciò, A, Mainini, R, Penzo, C, Bonometto, S, Bonometto, S., and MAININI, ROBERTO

Published

2015

50. Tomographic weak-lensing shear spectra from large N-body and hydrodynamical simulations

Author

Casarini L., Bonometto S. A., BORGANI, STEFANO, Dolag K., Murante G., La Vacca G., MEZZETTI, MARINO, TORNATORE, LUCA, Casarini, L, Bonometto, S, Borgani, S, Dolag, K, Murante, G, Mezzetti, M, Tornatore, L, LA VACCA, G, Casarini, L., Bonometto, S. A., Borgani, Stefano, Dolag, K., Murante, G., Mezzetti, Marino, Tornatore, Luca, and La Vacca, G.

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), Radiative cooling, FOS: Physical sciences, Astrophysics, 01 natural sciences, dark matter, weak [gravitational lensing], Gravitational lensing: weak, 0103 physical sciences, Dark energy, Dark matter, dark energy, 010303 astronomy & astrophysics, Weak gravitational lensing, Physics, COSMIC cancer database, theory [cosmology], 010308 nuclear & particles physics, Spectral density, Astronomy and Astrophysics, Astronomy and Astrophysic, Computational physics, cosmology: theory, gravitational lensing: weak, Baryon, Shear (sheet metal), Supernova, 13. Climate action, Space and Planetary Science, Harmonics, Cosmology: theory, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Forthcoming experiments will enable us to determine tomographic shear spectra at a high precision level. Most predictions about them have until now been biased on algorithms yielding the expected linear and non-linear spectrum of density fluctuations. Even when simulations have been used, so-called Halofit (Smith et al 2003) predictions on fairly large scales have been needed. We wish to go beyond this limitation. We perform N-body and hydrodynamical simulations within a sufficiently large cosmological volume to allow a direct connection between simulations and linear spectra. While covering large length-scales, the simulation resolution is good enough to allow us to explore the high-l harmonics of the cosmic shear (up to l ~ 50000), well into the domain where baryon physics becomes important. We then compare shear spectra in the absence and in presence of various kinds of baryon physics, such as radiative cooling, star formation, and supernova feedback in the form of galactic winds. We distinguish several typical properties of matter fluctuation spectra in the different simulations and test their impact on shear spectra. We compare our outputs with those obtainable using approximate expressions for non--linear spectra, and identify substantial discrepancies even between our results and those of purely N-body results. Our simulations and the treatment of their outputs however enable us, for the first time, to obtain shear results taht are fully independent of any approximate expression, also in the high-l range, where we need to incorporate a non-linear power spectrum of density perturbations, and the effects of baryon physics. This will allow us to fully exploit the cosmological information contained in future high--sensitivity cosmic shear surveys, exploring the physics of cosmic shears via weak lensing measurements., 13 pages, 19 figures, A&A in press

Published

2012