57 research outputs found
The Observed Galactic Annihilation Line. Possible Signature of the Cluster for Accreting Small Mass Black Holes
Compton Gamma Ray Observatory, OSSE, SMM, TGRS, balloon and recent INTEGRAL
data reveal a feature of the 0.511 MeV annihilation radiation of the Galactic
Center with a flux of approximately 5x 10^{-4}~0.511 MeV photons cm^{-2}
s^{-1}. We argue that e+e- pairs can be generated when the X-ray radiation
photons and ~10-30 MeV photons interact with each other in the compact region
in the proximity of the Galactic Center black hole. In fact, disks formed near
black holes of 10^{17} g mass should emit the ~ 10 MeV temperature blackbody
radiation. If positron e+ sources are producing about 10^{42} e+ s^{-1} near
the Galactic Center they would annihilate on the way out and result in 0.511
MeV emission. We suggest that the annihilation radiation can be an
observational consequence of the interaction of the accretion disk radiation of
the SMall Mass Black Holes (SMMBHs) with X-ray radiation in the Galactic
Center. This is probably the only way to identify and observe these SMMBHs.Comment: 21 pages, 1 figure, to appear in the ApJ, 10 March 2006, v 639 2
issu
The Production of Anti-Matter in our Galaxy
The discovery of a single anti-helium nucleus in the cosmic ray flux would
definitely point toward the existence of stars and even of entire galaxies made
of anti-matter. The presence of anti-nuclei in cosmic rays has actually
profound implications on the fundamental question of the baryon asymmetry of
the universe. It is therefore crucial to determine the amount of anti-matter
which our own galaxy already produces through the spallation of high-energy
protons on the interstellar gas of the galactic disk. We have used here a
coalescence model to assess the amount of anti-deuterium and anti-helium 3
present in cosmic rays together with anti-protons. The propagation of cosmic
rays in the galaxy is described through a two-zone diffusion model which
correctly describes the observed abundances. We find that the
antideuterium/proton ratio exceeds above a momentum per anti-nucleon
of about 4 GeV/c. Would the universe be purely made of matter, the AMS
collaboration should be able to detect a few anti-deuterons during the space
station stage of the experiment. However, the antihelium3/proton abundance does
not exceed . Heavier anti-nuclei are even further suppressed.Comment: 15 pages, 2 figure
GRB 980425, SN1998bw and the EMBH model
The EMBH model, previously developed using GRB 991216 as a prototype, is here
applied to GRB 980425. We fit the luminosity observed in the 40-700 keV, 2-26
keV and 2-10 keV bands by the BeppoSAX satellite. In addition we present a
novel scenario in which the supernova SN1998bw is the outcome of an ``induced
gravitational collapse'' triggered by GRB 980425, in agreement with the
GRB-Supernova Time Sequence (GSTS) paradigm (Ruffini et al. 2001c). A further
outcome of this astrophysically exceptional sequence of events is the formation
of a young neutron star generated by the SN1998bw event. A coordinated
observational activity is recommended to further enlighten the underlying
scenario of this most unique astrophysical system.Comment: 10 pages, 3 figures, in the Proceedings of the 34th COSPAR scientific
assembly, Elsevier. Fixed some typos in this new versio
On the role of galactic magnetic halo in the ultra high energy cosmic rays propagation
The study of propagation of Ultra High Energy Cosmic Rays (UHECR) is a key
step in order to unveil the secret of their origin. Up to now it was considered
only the influence of the galactic and the extragalactic magnetic fields. In
this article we focus our analysis on the influence of the magnetic field of
the galaxies standing between possible UHECR sources and us. Our main approach
is to start from the well known galaxy distribution up to 120 Mpc. We use the
most complete galaxy catalog: the LEDA catalog. Inside a sphere of 120 Mpc
around us, we extract 60130 galaxies with known position. In our simulations we
assign a Halo Dipole magnetic Field (HDF) to each galaxy. The code developed is
able to retro-propagate a charged particle from the arrival points of UHECR
data across our galaxies sample. We present simulations in case of Virgo
cluster and show that there is a non negligible deviation in the case of
protons of eV, even if the value is conservative. Then
special attention is devoted to the AGASA triplet where we find that NGC3998
and NGC3992 could be possible candidates as sources.Comment: Version accepted from ApJ, 5 figure
On the structures in the afterglow peak emission of gamma ray bursts
Using GRB 991216 as a prototype, it is shown that the intensity substructures observed in what is generally called the "prompt emission" in gamma ray bursts (GRBs) do originate in the collision between the accelerated baryonic matter (ABM) pulse with inhomogeneities in the interstellar medium (ISM). The initial phase of such process occurs at a Lorentz factor . The crossing of ISM inhomogeneities of sizes cm occurs in a detector arrival time interval of s implying an apparent superluminal behavior of . The long lasting debate between the validity of the external shock model vs. the internal shock model for GRBs is solved in favor of the first
Emergence of a filamentary structure in the fireball from GRB spectra
It is shown that the concept of a fireball with a definite filamentary
structure naturally emerges from the analysis of the spectra of Gamma-Ray
Bursts (GRBs). These results, made possible by the recently obtained analytic
expressions of the equitemporal surfaces in the GRB afterglow, depend crucially
on the single parameter R describing the effective area of the fireball
emitting the X- and gamma ray radiation. The X- and gamma ray components of the
afterglow radiation are shown to have a thermal spectrum in the co-moving frame
of the fireball and originate from a stable shock front described
self-consistently by the Rankine-Hugoniot equations. Precise predictions are
presented on a correlations between spectral changes and intensity variations
in the prompt radiation verifiable, e.g., by the Swift and future missions. The
highly variable optical and radio emission depends instead on the parameters of
the surrounding medium. The GRB 991216 is used as a prototype for this model.Comment: 9 pages, 3 figures, to appear on International Journal of Modern
Physics
GRB970228 as a prototype for short GRBs with afterglow
GRB970228 is analyzed as a prototype to understand the relative role of short
GRBs and their associated afterglows, recently observed by Swift and HETE-II.
Detailed theoretical computation of the GRB970228 light curves in selected
energy bands are presented and compared with observational BeppoSAX data.Comment: 2 pages, 1 figure, to appear in the proceedings of "Swift and GRBs",
Venice, 2006, Il Nuovo Cimento, in pres
Theoretical interpretation of luminosity and spectral properties of GRB 031203
The X and gamma-ray observations of the source GRB 031203 by INTEGRAL are
interpreted within our theoretical model. In addition to a complete space-time
parametrization of the GRB, we specifically assume that the afterglow emission
originates from a thermal spectrum in the co-moving frame of the expanding
baryonic matter shell. By determining the two free parameters of the model and
estimating the density and filamentary structure of the ISM, we reproduce the
observed luminosity in the 20-200 keV energy band. As in previous sources, the
prompt radiation is shown to coincide with the peak of the afterglow and the
luminosity substructure are shown to originate in the filamentary structure of
the ISM. We predict a clear hard-to-soft behavior in the instantaneous spectra.
The time-integrated spectrum over 20 seconds observed by INTEGRAL is well
fitted. Despite this source has been considered "unusual", it appears to us a
normal low energetic GRB.Comment: 4 pages, 4 figures, to appear on ApJ Letter
Theoretical interpretation of luminosity and spectral properties of GRB 031203
We show how an emission endowed with an instantaneous thermal spectrum in the
co-moving frame of the expanding fireshell can reproduce the time-integrated
GRB observed non-thermal spectrum. An explicit example in the case of GRB
031203 is presented.Comment: 3 pages, 1 figure, to appear on the Proceedings of the Eleventh
Marcel Grossmann Meeting, Berlin (Germany), July 2006. This new version fixes
a missing line in the affiliations of the authors. The actual text of the
paper is unchange
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