Your search keyword '"Pisani G. B."' showing total 164 results

1. The binary progenitors of short and long GRBs and their gravitational-wave emission

Author

Rueda J. A., Ruffini R., Rodriguez J. F., Muccino M., Aimuratov Y., Barres de Almeida U., Becerra L., Bianco C. L., Cherubini C., Filippi S., Kovacevic M., Moradi R., Pisani G. B., and Wang Y.

Subjects

Physics, QC1-999

Abstract

We have sub-classified short and long-duration gamma-ray bursts (GRBs) into seven families according to the binary nature of their progenitors. Short GRBs are produced in mergers of neutron-star binaries (NS-NS) or neutron star-black hole binaries (NS-BH). Long GRBs are produced via the induced gravitational collapse (IGC) scenario occurring in a tight binary system composed of a carbon-oxygen core (COcore) and a NS companion. The COcore explodes as type Ic supernova (SN) leading to a hypercritical accretion process onto the NS: if the accretion is sufficiently high the NS reaches the critical mass and collapses forming a BH, otherwise a massive NS is formed. Therefore long GRBs can lead either to NS-BH or to NS-NS binaries depending on the entity of the accretion. We discuss for the above compact-object binaries: 1) the role of the NS structure and the nuclear equation of state; 2) the occurrence rates obtained from X and gamma-rays observations; 3) the predicted annual number of detections by the Advanced LIGO interferometer of their gravitational-wave emission.

Published

2018

2. The first ICRANet catalog of binary-driven hypernovae

Author

Pisani G. B., Ruffini R., Aimuratov Y., Bianco C. L., Karlica M., Kovacevic M., Moradi R., Muccino M., Penacchioni A. V., Primorac D., Rueda J. A., and Wang Y.

Subjects

supernovae, general binaries, general, gamma-ray burst, stars, neutron, Physics, QC1-999

Abstract

In a series of recent publications, scientists from ICRANet, led by professor Remo Ruffini, have reached a novel comprehensive picture of gamma-ray bursts (GRBs) thanks to their development of a series of new theoretical approaches. Among those, the induced gravitational collapse (IGC) paradigm explains a class of energetic, long-duration GRBs associated with Ib/c supernovae (SN), recently named binary-driven hypernovae (BdHNe). BdHNe have a well defined set of observational features which allow to identify them. Among them, the main two are: 1) long duration of the GRB explosion, namely larger than 2 s in the rest frame; 2) a total energy, released in all directions by the GRB explosion, larger than 1052 ergs. A striking result is the observation, in the BdHNe sources, of a universal late time power-law decay in the X-rays luminosity after 104 s, with typical decaying slope of ~ 1.5. This leads to the possible establishment of a new distance indicator having redshift up to z ~ 8. Thanks to this novel theoretical and observational understanding, it was possible for ICRANet scientists to build the firstst BdHNe catalog, composed by the 345 BdHNe identified up to the end of 2016.

Published

2018

3. The morphology of the X-ray afterglows and of the jetted GeV emission in long GRBs

Author

Ruffini, R., Moradi, R., Rueda, J. A., Li, L., Sahakyan, N., Chen, Y. -C., Wang, Y., Aimuratov, Y., Becerra, L., Bianco, C. L., Cherubini, C., Filippi, S., Karlica, M., Mathews, G. J., Muccino, M., Pisani, G. B., and Xue, S. S.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology

Abstract

We recall evidence that long gamma-ray bursts (GRBs) have binary progenitors and give new examples. Binary-driven hypernovae (BdHNe) consist of a carbon-oxygen core (CO$_{\rm core}$) and a neutron star (NS) companion. For binary periods $\sim 5$ min, the CO$_{\rm core}$ collapse originates the subclass BdHN I characterized by: 1) an energetic supernova (the "SN-rise"); 2) a black hole (BH), born from the NS collapse by SN matter accretion, leading to a GeV emission with luminosity $L_{\rm GeV} = A_{\rm GeV}\,t^{-\alpha_{\rm GeV}}$, observed only in some cases; 3) a new NS ($\nu$NS), born from the SN, originating the X-ray afterglow with $L_X = A_{\rm X}\,t^{-\alpha_{\rm X}}$, observed in all BdHN I. We record $378$ sources and present for four prototypes GRBs 130427A, 160509A, 180720B and 190114C: 1) spectra, luminosities, SN-rise duration; 2) $A_X$, $\alpha_X=1.48\pm 0.32$, and 3) the $\nu$NS spin time-evolution. We infer a) $A_{\rm GeV}$, $\alpha_{\rm GeV}=1.19 \pm 0.04$; b) the BdHN I morphology from time-resolved spectral analysis, three-dimensional simulations, and the GeV emission presence/absence in $54$ sources within the Fermi-LAT boresight angle. For $25$ sources, we give the integrated and time-varying GeV emission, $29$ sources have no GeV emission detected and show X/gamma-ray flares previously inferred as observed along the binary plane. The $25/54$ ratio implies the GeV radiation is emitted within a cone of half-opening angle $\approx 60^{\circ}$ from the normal to the orbital plane. We deduce BH masses $2.3$-$8.9~M_\odot$ and spin $0.27$-$0.87$ by explaining the GeV emission from the BH energy extraction, while their time evolution validates the BH mass-energy formula., Comment: Accepted for publication by MNRAS on March 5, 2021; in press

Published

2021

4. Tracing dark energy history with gamma ray bursts

Author

Muccino, M., Izzo, L., Luongo, O., Boshkayev, K., Amati, L., Della Valle, M., Pisani, G. B., and Zaninoni, E.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Observations of gamma-ray bursts up to $z\sim 9$ are best suited to study the possible evolution of the Universe equation of state at intermediate redshifts. We apply the Combo-relation to a sample of 174 gamma ray bursts to investigate possible evidence of evolving dark energy parameter $w(z)$. We first build a gamma ray burst Hubble's diagram and then we estimate the set ($\Omega_m$, $\Omega_{\Lambda}$) in the framework of flat and non-flat $\Lambda$CDM paradigm. We then get bounds over the $w$CDM model, where $w$ is thought to evolve with redshift, adopting two priors over the Hubble constant in tension at $4.4$-$\sigma$, i.e. $H_0=(67.4\pm0.5)$ km/s/Mpc and $H_0=(74.03\pm1.42)$ km/s/Mpc. We show our new sample provides tighter constraints on $\Omega_m$ since at $z\leq1.2$ we see that $w(z)$ agrees within 1$\sigma$ with the standard value $w=-1$. The situation is the opposite at larger $z$, where gamma ray bursts better fix $w(z)$ that seems to deviate from $w=-1$ at $2$-$\sigma$ and $4$-$\sigma$ level, depending on the redshift bins. In particular, we investigate the $w(z)$ evolution through a piecewise formulation over seven redshift intervals. From our fitting procedure we show that at $z\geq 1.2$ the case $w<-1$ cannot be fully excluded, indicating that dark energy's influence is not negligible at larger $z$. We confirm the Combo relation as a powerful tool to investigate cosmological evolution of dark energy. Future space missions will significantly enrich the gamma ray burst database even at smaller redshifts, improving de facto the results discussed in this paper., Comment: 10 pages, 7 figures, ApJ submitted

Published

2020

5. On the role of the Kerr-Newman black hole in the GeV emission of long gamma-ray bursts

Author

Ruffini, R., Moradi, R., Rueda, J. A., Wang, Y., Aimuratov, Y., Becerra, L., Bianco, C. L., Chen, Y. -C., Cherubini, C., Filippi, S., Karlica, M., Mathews, G. J., Muccino, M., Pisani, G. B., Primorac, D., and Xue, S. -S.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

X-ray Flashes (XRFs), binary-driven hypernovae (BdHNe) are long GRB subclasses with progenitor a CO$_{\rm core}$, undergoing a supernova (SN) explosion and hypercritically accreting in a tight binary system onto a companion neutron star (NS) or black hole (BH). In XRFs the NS does not reach by accretion the critical mass and no BH is formed. In BdHNe I, with shorter binary periods, the NS gravitationally collapses and leads to a new born BH. In BdHNe II the accretion on an already formed BH leads to a more massive BH. We assume that the GeV emission observed by \textit{Fermi}-LAT originates from the rotational energy of the BH. Consequently, we verify that, as expected, in XRFs no GeV emission is observed. In $16$ BdHNe I and $5$ BdHNe II, within the boresight angle of LAT, the integrated GeV emission allows to estimate the initial mass and spin of the BH. In the remaining $27$ sources in the plane of the binary system no GeV emission occurs, hampered by the presence of the HN ejecta. From the ratio, $21/48$, we infer a new asymmetric morphology for the BdHNe reminiscent of the one observed in active galactic nuclei (AGN): the GeV emission occurs within a cone of half-opening angle $\approx 60^{\circ}$ from the normal to the orbital plane of the binary progenitor. The transparency condition requires a Lorentz factor $\Gamma \sim 1500$ on the source of GeV emission. The GeV luminosity in the rest-frame of the source follows a universal power-law with index of $-1.20 \pm 0.04$, allowing to estimate the spin-down rate of the BH, Comment: 17 pages

Published

2018

6. On the Short GRB GeV emission from a Kerr Black hole

Author

Ruffini, R., Muccino, M., Aimuratov, Y., Amiri, M., Bianco, C. L., Chen, Y. -C., Panah, B. Eslam, Mathews, G. J., Moradi, R., Pisani, G. B., Primorac, D., Rueda, J. A., and Wang, Y.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

It has recently become clear that in both short and long gamma-ray bursts (GRBs) it coexists a sequence of different events, each characterized by specific physical processes and corresponding values of the Lorentz gamma factors. The ultra-relativistic prompt emission (UPE) phase, with Lorentz factor $\Gamma\leq10^4$, is followed by a mildly relativistic plateau-afterglow phase with $\Gamma\lesssim2$. The GeV radiation, with $\Gamma\lesssim50$, coexists with the above two phases. It is shown that: a) the GeV radiation originates at the onset of the formation of a black hole (BH), b) its luminosity follows specific power-law dependence when measured in the rest frame of the source with a decay index $\gamma=-1.29\pm0.06$ in the case of the short GRBs, and $\gamma=-1.20\pm0.04$ in the case of the long GRBs, c) these energetics requirements are used to derive the mass and spin of the BH originating this extended GeV emission. We present these conceptual results for the case of short GRBs in this article and give the extended analysis for long GRBs in a companion article. A direct astrophysical application of these results is that the merger of binary neutron stars leading to BH formation emits GeV radiation: the GeV emission is a necessary and sufficient condition to indicate the creation of a BH in S-GRBs., Comment: Submitted to ApJ

Published

2018

7. On the ultra-relativistic Prompt Emission (UPE), the Hard and Soft X-ray Flares, and the extended thermal emission (ETE) in GRB 151027A

Author

Ruffini, R., Becerra, L., Bianco, C. L., Chen, Y. C., Karlica, M., Kovacevic, M., Fuksman, J. D. Melon, Moradi, R., Muccino, M., Pisani, G. B., Primorac, D., Rueda, J. A., Vereshchagin, G. V., Wang, Y., and Xue, S. -S.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We analyze GRB 151027A within the binary-driven hypernova (BdHN) approach, with progenitor a carbon-oxygen core on the verge of a supernova (SN) explosion and a binary companion neutron star (NS). The hypercritical accretion of the SN ejecta onto the NS leads to its gravitational collapse into a black hole (BH), to the emission of the GRB and to a copious $e^+e^-$ plasma. The impact of this $e^+e^-$ plasma on the SN ejecta explains {the} early soft X-ray flare observed in long GRBs. We here apply this approach to the UPE and to the hard X-ray flares. We use GRB 151027A as a prototype. From the time-integrated and the time-resolved analysis we identify a double component in the UPE and confirm its ultra-relativistic nature. We confirm the mildly-relativistic nature of the soft X-ray flare, of the hard X-ray flare and of the ETE. We show that the ETE identifies the transition from a SN to the HN. We then address the theoretical justification of these observations by integrating the hydrodynamical propagation equations of the $e^+ e^-$ into the SN ejecta, the latter independently obtained from 3D smoothed-particle-hydrodynamics simulations. We conclude that the UPE, the hard X-ray flare and the soft X-ray flare do not form a causally connected sequence: Within our model they are the manifestation of \textbf{the same} physical process of the BH formation as seen through different viewing angles, implied by the morphology and the $\sim 300$~s rotation period of the HN ejecta., Comment: Accepted by ApJ

Published

2017

8. GRB 081024B and GRB 140402A: two additional short GRBs from binary neutron star mergers

Author

Aimuratov, Y., Ruffini, R., Muccino, M., Bianco, C. L., Penacchioni, A. V., Pisani, G. B., Primorac, D., Rueda, J. A., and Wang, Y.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Theoretical and observational evidences have been recently gained for a two-fold classification of short bursts: 1) short gamma-ray flashes (S-GRFs), with isotropic energy $E_{iso}<10^{52}$~erg and no BH formation, and 2) the authentic short gamma-ray bursts (S-GRBs), with isotropic energy $E_{iso}>10^{52}$~erg evidencing a BH formation in the binary neutron star merging process. The signature for the BH formation consists in the on-set of the high energy ($0.1$--$100$~GeV) emission, coeval to the prompt emission, in all S-GRBs. No GeV emission is expected nor observed in the S-GRFs. In this paper we present two additional S-GRBs, GRB 081024B and GRB 140402A, following the already identified S-GRBs, i.e., GRB 090227B, GRB 090510 and GRB 140619B. We also return on the absence of the GeV emission of the S-GRB 090227B, at an angle of $71^{\rm{o}}$ from the \textit{Fermi}-LAT boresight. All the correctly identified S-GRBs correlate to the high energy emission, implying no significant presence of beaming in the GeV emission. The existence of a common power-law behavior in the GeV luminosities, following the BH formation, when measured in the source rest-frame, points to a commonality in the mass and spin of the newly-formed BH in all S-GRBs., Comment: 16 pages, submitted to ApJ, second version addressing the comments by the referee

Published

2017

9. Early X-ray Flares in GRBs

Author

Ruffini, R., Wang, Y., Aimuratov, Y., de Almeida, U. Barres, Becerra, L., Bianco, C. L., Chen, Y. C., Karlica, M., Kovacevic, M., Li, L., Fuksman, J. D. Melon, Moradi, R., Muccino, M., Penacchioni, A. V., Pisani, G. B., Primorac, D., Rueda, J. A., Shakeri, S., Vereshchagin, G. V., and Xue, S. -S.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We analyze the early X-ray flares in the GRB "flare-plateau-afterglow" (FPA) phase observed by Swift-XRT. The FPA occurs only in one of the seven GRB subclasses: the binary-driven hypernovae (BdHNe). This subclass consists of long GRBs with a carbon-oxygen core and a neutron star (NS) binary companion as progenitors. The hypercritical accretion of the supernova (SN) ejecta onto the NS can lead to the gravitational collapse of the NS into a black hole. Consequently, one can observe a GRB emission with isotropic energy $E_{iso}\gtrsim10^{52}$~erg, as well as the associated GeV emission and the FPA phase. Previous work had shown that gamma-ray spikes in the prompt emission occur at $\sim 10^{15}$--$10^{17}$~cm with Lorentz gamma factor $\Gamma\sim10^{2}$--$10^{3}$. Using a novel data analysis we show that the time of occurrence, duration, luminosity and total energy of the X-ray flares correlate with $E_{iso}$. A crucial feature is the observation of thermal emission in the X-ray flares that we show occurs at radii $\sim10^{12}$~cm with $\Gamma\lesssim 4$. These model independent observations cannot be explained by the "fireball" model, which postulates synchrotron and inverse Compton radiation from a single ultra relativistic jetted emission extending from the prompt to the late afterglow and GeV emission phases. We show that in BdHNe a collision between the GRB and the SN ejecta occurs at $\simeq10^{10}$~cm reaching transparency at $\sim10^{12}$~cm with $\Gamma\lesssim4$. The agreement between the thermal emission observations and these theoretically derived values validates our model and opens the possibility of testing each BdHN episode with the corresponding Lorentz gamma factor., Comment: 57 pages, 40 figures, accepted for publication on ApJ

Published

2017

10. On the universal late X-ray emission of binary-driven hypernovae and its possible collimation

Author

Pisani, G. B., Ruffini, R., Aimuratov, Y., Bianco, C. L., Kovacevic, M., Moradi, R., Muccino, M., Penacchioni, A. V., Rueda, J. A., Shakeri, S., and Wang, Y.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

It has previously been discovered that there is a universal power law behavior exhibited by the late X-ray emission (LXRE) of a "golden sample" (GS) of six long energetic GRBs, when observed in the rest-frame of the source. This remarkable feature, independent of the different isotropic energy (E_iso) of each GRB, has been used to estimate the cosmological redshift of some long GRBs. This analysis is extended here to a new class of 161 long GRBs, all with E_iso > 10^52 erg. These GRBs are indicated as binary-driven hypernovae (BdHNe) in view of their progenitors: a tight binary system composed of a carbon-oxygen core (CO_core) and a neutron star undergoing an induced gravitational collapse (IGC) to a black hole triggered by the CO_core explosion as a supernova (SN). We confirm the universal behavior of the LXRE for the "enlarged sample" (ES) of 161 BdHNe observed up to the end of 2015, assuming a double-cone emitting region. We obtain a distribution of half-opening angles peaking at 17.62 degrees, with a mean value of 30.05 degrees, and a standard deviation of 19.65 degrees. This, in turn, leads to the possible establishment of a new cosmological candle. Within the IGC model, such universal LXRE behavior is only indirectly related to the GRB and originates from the SN ejecta, of a standard constant mass, being shocked by the GRB emission. The fulfillment of the universal relation in the LXRE and its independence of the prompt emission, further confirmed in this article, establishes a crucial test for any viable GRB model.

Published

2016

11. GRB 090510: a genuine short-GRB from a binary neutron star coalescing into a Kerr-Newman black hole

Author

Ruffini, R., Muccino, M., Aimuratov, Y., Bianco, C. L., Cherubini, C., Enderli, M., Kovacevic, M., Moradi, R., Penacchioni, A. V., Pisani, G. B., Rueda, J. A., and Wang, Y.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

In a new classification of merging binary neutron stars (NSs) we separate short gamma-ray bursts (GRBs) in two sub-classes. The ones with $E_{iso}\lesssim10^{52}$ erg coalesce to form a massive NS and are indicated as short gamma-ray flashes (S-GRFs). The hardest, with $E_{iso}\gtrsim10^{52}$ erg, coalesce to form a black hole (BH) and are indicated as genuine short-GRBs (S-GRBs). Within the fireshell model, S-GRBs exhibit three different components: the P-GRB emission, observed at the transparency of a self-accelerating baryon-$e^+e^-$ plasma; the prompt emission, originating from the interaction of the accelerated baryons with the circumburst medium; the high-energy (GeV) emission, observed after the P-GRB and indicating the formation of a BH. GRB 090510 gives the first evidence for the formation of a Kerr BH or, possibly, a Kerr-Newman BH. Its P-GRB spectrum can be fitted by a convolution of thermal spectra whose origin can be traced back to an axially symmetric dyadotorus. A large value of the angular momentum of the newborn BH is consistent with the large energetics of this S-GRB, which reach in the 1--10000 keV range $E_{iso}=(3.95\pm0.21)\times10^{52}$ erg and in the 0.1--100 GeV range $E_{LAT}=(5.78\pm0.60)\times10^{52}$ erg, the most energetic GeV emission ever observed in S-GRBs. The theoretical redshift $z_{th}=0.75\pm0.17$ that we derive from the fireshell theory is consistent with the spectroscopic measurement $z=0.903\pm0.003$, showing the self-consistency of the theoretical approach. All S-GRBs exhibit GeV emission, when inside the Fermi-LAT field of view, unlike S-GRFs, which never evidence it. The GeV emission appears to be the discriminant for the formation of a BH in GRBs, confirmed by their observed overall energetics., Comment: 23 pages, 11 figures, this version is accepted on ApJ

Published

2016

12. On the rate and on the gravitational wave emission of short and long GRBs

Author

Ruffini, R., Rodriguez, J., Muccino, M., Rueda, J. A., Aimuratov, Y., de Almeida, U. Barres, Becerra, L., Bianco, C. L., Cherubini, C., Filippi, S., Gizzi, D., Kovacevic, M., Moradi, R., Oliveira, F. G., Pisani, G. B., and Wang, Y.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

On the ground of the large number of gamma-ray bursts (GRBs) detected with cosmological redshift, we classified GRBs in seven subclasses, all with binary progenitors originating gravitational waves (GWs). Each binary is composed by combinations of carbon-oxygen cores (CO$_{\rm core}$), neutron stars (NSs), black holes (BHs) and white dwarfs (WDs). The long bursts, traditionally assumed to originate from a BH with an ultra-relativistic jetted emission, not emitting GWs, have been subclassified as (I) X-ray flashes (XRFs), (II) binary-driven hypernovae (BdHNe), and (III) BH-supernovae (BH-SNe). They are framed within the induced gravitational collapse (IGC) paradigm with progenitor a CO$_{\rm core}$-NS/BH binary. The supernova (SN) explosion of the CO$_{\rm core}$ triggers an accretion process onto the NS/BH. If the accretion does not lead the NS to its critical mass, an XRF occurs, while when the BH is present or formed by accretion, a BdHN occurs. When the binaries are not disrupted, XRFs lead to NS-NS and BdHNe lead to NS-BH. The short bursts, originating in NS-NS, are subclassified as (IV) short gamma-ray flashes (S-GRFs) and (V) short GRBs (S-GRBs), the latter when a BH is formed. There are (VI) ultra-short GRBs (U-GRBs) and (VII) gamma-ray flashes (GRFs), respectively formed in NS-BH and NS-WD. We use the occurrence rate and GW emission of these subclasses to assess their detectability by Advanced LIGO-Virgo, eLISA, and resonant bars. We discuss the consequences of our results in view of the announcement of the LIGO-Virgo Collaboration of the source GW 170817 as being originated by a NS-NS., Comment: Accepted for publication in The Astrophysical Journal

Published

2016

13. On the classification of GRBs and their occurrence rates

Author

Ruffini, R., Rueda, J. A., Muccino, M., Aimuratov, Y., Becerra, L. M., Bianco, C. L., Kovacevic, M., Moradi, R., Oliveira, F. G., Pisani, G. B., and Wang, Y.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

There is mounting evidence for the binary nature of the progenitors of gamma-ray bursts (GRBs). For a long GRB, the induced gravitational collapse (IGC) paradigm proposes as progenitor, or "in-state", a tight binary system composed of a carbon-oxygen core (CO$_{core}$) undergoing a supernova (SN) explosion which triggers hypercritical accretion onto a neutron star (NS) companion. For a short GRB, a NS-NS merger is traditionally adopted as the progenitor. We divide long and short GRBs into two sub-classes, depending on whether or not a black hole (BH) is formed in the merger or in the hypercritical accretion process exceeding the NS critical mass. For long bursts, when no BH is formed we have the sub-class of X-ray flashes (XRFs), with isotropic energy $E_{iso}\lesssim10^{52}$ erg and rest-frame spectral peak energy $E_{p,i}\lesssim200$ keV. When a BH is formed we have the sub-class of binary-driven hypernovae (BdHNe), with $E_{iso}\gtrsim10^{52}$ erg and $E_{p,i}\gtrsim200$ keV. In analogy, short bursts are similarly divided into two sub-classes. When no BH is formed, short gamma-ray flashes (S-GRFs) occur, with $E_{iso}\lesssim10^{52}$ erg and $E_{p,i}\lesssim2$ MeV. When a BH is formed, the authentic short GRBs (S-GRBs) occur, with $E_{iso}\gtrsim10^{52}$ erg and $E_{p,i}\gtrsim2$ MeV. We give examples and observational signatures of these four sub-classes and their rate of occurrence. From their respective rates it is possible that "in-states" of S-GRFs and S-GRBs originate from the "out-states" of XRFs. We indicate two additional progenitor systems: white dwarf-NS and BH-NS. These systems have hybrid features between long and short bursts. In the case of S-GRBs and BdHNe evidence is given of the coincidence of the onset of the high energy GeV emission with the birth of a Kerr BH., Comment: 31 pages, 10 figures, this version matches the one in press on ApJ

Published

2016

14. GRB 140619B: a short GRB from a binary neutron star merger leading to black hole formation

Author

Ruffini, R., Muccino, M., Kovacevic, M., Oliveira, F. G., Rueda, J. A., Bianco, C. L., Enderli, M., Penacchioni, A. V., Pisani, G. B., Wang, Y., and Zaninoni, E.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We show the existence of two families of short GRBs, both originating from the merger of binary neutron stars (NSs): family-1 with $E_{iso}<10^{52}$ erg, leading to a massive NS as the merged core, and family-2 with $E_{iso}>10^{52}$ erg, leading to a black hole (BH). Following the identification of the prototype GRB 090227B, we present the details of a new example of family-2 short burst: GRB 140619B. From the spectral analysis of the early $\sim0.2$ s, we infer an observed temperature $kT =(324\pm33)$ keV of the $e^+e^-$-plasma at transparency (P-GRB), a theoretically derived redshift $z=2.67\pm0.37$, a total burst energy $E^{tot}_{e^+e^-}=(6.03\pm0.79)\times10^{52}$ erg, a rest-frame peak energy $E_{p,i}=4.7$ MeV, and a baryon load $B=(5.52\pm0.73)\times10^{-5}$. We also estimate the corresponding emission of gravitational waves. Two additional examples of family-2 short bursts are identified: GRB 081024B and GRB 090510, remarkable for its well determined cosmological distance. We show that marked differences exist in the nature of the afterglows of these two families of short bursts: family-2 bursts, leading to BH formation, consistently exhibit high energy emission following the P-GRB emission; family-1 bursts, leading to the formation of a massive NS, should never exhibit high energy emission. We also show that both the families fulfill an $E_{p,i}$--$E_{iso}$ relation with slope $\gamma=0.59\pm0.07$ and a normalization constant incompatible with the one for long GRBs. The observed rate of such family-2 events is $\rho_0=\left(2.1^{+2.8}_{-1.4}\right)\times10^{-4}$Gpc$^{-3}$yr$^{-1}$., Comment: 14 pages, 13 figures, ApJ in press

Published

2014

15. A search for \textit{Fermi} bursts associated to supernovae and their frequency of occurrence

Author

Kovacevic, M., Izzo, L., Wang, Y., Muccino, M., Della Valle, M., Amati, L., Barbarino, C., Enderli, M., Pisani, G. B., and Li, L.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Context: Observations suggest that the major fraction of long duration gamma-ray bursts (GRBs) are connected with broad-lines supernovae Ib/c, (SNe-Ibc). The presence of GRB-SNe is revealed by rebrightenings emerging from the optical GRB afterglow $10$--$15$ days, in the rest-frame of the source, after the prompt GRB emission. Aims: \textit{Fermi}-GBM has a field of view (FoV) which is about 6.5 times larger than the FoV of \textit{Swift}, therefore we expect that a number of GRB-SN connections have been missed due to lack of optical and X-ray instruments on board of \textit{Fermi}, which are essential to reveal SNe associated with GRBs. This fact has motivated our search in the \textit{Fermi} catalogue for possible GRB-SN events. Methods: The search for possible GRB-SN associations follows two requirements: (1) SN should fall inside the \textit{Fermi}-GBM error box of the considered long GRB, and (2) this GRB should occur within $20$ days before the SN event. Results: We have found $5$ cases, within $z<0.2$ fulfilling the above reported requirements. One of them, GRB 130702A-SN 2013dx, was already known as GRB-SN association. We have analyzed the remaining $4$ cases and we concluded that three of them are, very likely, just random coincidences, due to the \textit{Fermi}-GBM large error box associated with each GRB detection. We found one GRB possibly associated with a SN 1998bw-like, GRB 120121B/SN 2012ba. Conclusions: The very low redshift of GRB 120121B/SN 2012ba ($z = 0.017$) implies a low isotropic energy of this burst ($E_{iso} = 1.39 \times 10^{48}$) erg. We then compute the rate of \textit{Fermi} low-luminosity GRBs connected with SNe to be $\rho_{0,b} \leq 770\ $Gpc$^{-3}$yr$^{-1}$. We estimate that \textit{Fermi}-GBM could detect $1$--$4$ GRBs-SNe within $z \leq 0.2$ in the next 4 years., Comment: 6 pages, 1 figure, accepted for publication in A&A

Published

2014

16. GRB 130427A and SN 2013cq: A Multi-wavelength Analysis of An Induced Gravitational Collapse Event

Author

Ruffini, R., Wang, Y., Kovacevic, M., Bianco, C. L., Enderli, M., Muccino, M., Penacchioni, A. V., Pisani, G. B., and Rueda, J. A.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We have performed our data analysis of the observations by Swift and Fermi satellites in order to probe the induced gravitational collapse (IGC) paradigm for GRBs associated with supernovae (SNe), in the "terra incognita" of GRB 130427A. We compare and contrast our data analysis with those in the literature. We have verified that the GRB 130427A conforms to the IGC paradigm by examining the power law behavior of the luminosity in the early $10^4$ s of the Swift-XRT observations. This has led to the successful prediction of the occurrence of SN 2013cq and to the identification of the four different episodes of the "binary driven hypernovae" (BdHNe). The exceptional quality of the data has allowed the identification of novel features in Episode 3 including: a) the confirmation and the extension of the existence of the recently discovered "nested structure" in the late X-ray luminosity in GRB 130427A, as well as the identification of a spiky structure at $10^2$ s in the cosmological rest-frame of the source; b) a power law emission of the GeV luminosity light curve and its onset at the end of Episode 2 c) different Lorentz $\Gamma$ factors for the emitting regions of the X-ray and GeV emissions in this Episode 3. These results make it possible to test the details of the physical and astrophysical regimes at work in the BdHNe: 1) a newly born neutron star and the supernova ejecta, originating in Episode 1, 2) a newly formed black hole originating in Episode 2, and 3) the possible interaction among these components, observable in the standard features of Episode 3., Comment: 10 pages, 9 figures. Accepted for publication in Astrophysical Journal

Published

2014

17. On Binary Driven Hypernovae and their nested late X-ray emission

Author

Ruffini, R., Muccino, M., Bianco, C. L., Enderli, M., Izzo, L., Kovacevic, M., Penacchioni, A. V., Pisani, G. B., Rueda, J. A., and Wang, Y.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Context: The induced gravitational collapse (IGC) paradigm addresses the very energetic (10^{52}-10^{54}erg) long gamma-ray bursts (GRBs) associated to supernovae (SNe). Unlike the traditional "collapsar" model, an evolved FeCO core with a companion neutron star (NS) in a tight binary system is considered as the progenitor. This special class of sources, here named "binary driven hypernovae" (BdHNe), presents a composite sequence composed of four different episodes [...]. Aims: We first compare and contrast the steep decay, the plateau and the power-law decay of the X-ray luminosities of three selected BdHNe [...]. Second, to explain the different sizes and Lorentz factors of the emitting regions of the four Episodes, [...]. Finally, we show the possible role of r-process, which originates in the binary system of the progenitor.. Methods: We compare and contrast the late X-ray luminosity of the above three BdHNe. We examine correlations between the time at the starting point of the constant late power-law decay, t^*_a, the average prompt luminosity, , and the luminosity at the end of the plateau, L_a. We analyze a thermal emission (~0.97-0.29 keV), observed during the X-ray steep decay phase of GRB 090618. Results: The late X-ray luminosities of the three BdHNe [...] show a precisely constrained "nested" structure [...]. Conclusions: We confirm a constant slope power-law behavior for the late X-ray luminosity in the source rest-frame, which may lead to a new distance indicator for BdHNe. These results, as well as the emitter size and Lorentz factor, appear to be inconsistent with the traditional afterglow model based on synchrotron emission from an ultra-relativistic [...] collimated jet outflow. We argue, instead, for the possible role of r-process, originating in the binary system, to power the mildly relativistic X-ray source., Comment: 4 pages, 4 figures, to appear on A&A. New version slightly modified to match the one in press

Published

2014

18. Induced gravitational collapse at extreme cosmological distances: the case of GRB 090423

Author

Ruffini, R., Izzo, L., Muccino, M., Pisani, G. B., Rueda, J. A., Wang, Y., Barbarino, C., Bianco, C. L., Enderli, M., and Kovacevic, M.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

CONTEXT: The induced gravitational collapse (IGC) scenario has been introduced in order to explain the most energetic gamma ray bursts (GRBs), Eiso=10^{52}-10^{54}erg, associated with type Ib/c supernovae (SNe). It has led to the concept of binary-driven hypernovae (BdHNe) originating in a tight binary system composed by a FeCO core on the verge of a SN explosion and a companion neutron star (NS). Their evolution is characterized by a rapid sequence of events: [...]. AIMS: We investigate whether GRB 090423, one of the farthest observed GRB at z=8.2, is a member of the BdHN family. METHODS: We compare and contrast the spectra, the luminosity evolution and the detectability in the observations by Swift of GRB 090423 with the corresponding ones of the best known BdHN case, GRB 090618. RESULTS: Identification of constant slope power-law behavior in the late X-ray emission of GRB 090423 and its overlapping with the corresponding one in GRB 090618, measured in a common rest frame, represents the main result of this article. This result represents a very significant step on the way to using the scaling law properties, proven in Episode 3 of this BdHN family, as a cosmological standard candle. CONCLUSIONS: Having identified GRB 090423 as a member of the BdHN family, we can conclude that SN events, leading to NS formation, can already occur already at z=8.2, namely at 650 Myr after the Big Bang. It is then possible that these BdHNe originate stem from 40-60 M_{\odot} binaries. They are probing the Population II stars after the completion and possible disappearance of Population III stars., Comment: 9 pages, 9 figures, to appear on A&A

Published

2014

19. Induced Gravitational Collapse in the BATSE era: the case of GRB 970828

Author

Ruffini, R., Rueda, Jorge A., Barbarino, C., Bianco, C. L., Dereli, H., Enderli, M., Izzo, L., Muccino, M., Penacchioni, A. V., Pisani, G. B., and Wang, Y.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Following the recently established "Binary-driven HyperNova" (BdHN) paradigm, we here interpret GRB 970828 in terms of the four episodes typical of such a model. The "Episode 1", up to 40 s after the trigger time t_0, with a time varying thermal emission and a total energy of E_{iso,1st} = 2.60 x 10^{53} erg, is interpreted as due to the onset of an hyper-critical accretion process onto a companion neutron star, triggered by the companion star, an FeCO core approaching a SN explosion. The "Episode 2", observed up t_0+90 s, is interpreted as a canonical gamma ray burst, with an energy of E^{e^+e^-}_{tot} = 1.60 x 10^{53} erg, a baryon load of B = 7 x 10^{-3} and a bulk Lorentz factor at transparency of \Gamma = 142.5. From this Episode 2, we infer that the GRB exploded in an environment with a large average particle density \approx 10^3 particles/cm^3 and dense clouds characterized by typical dimensions of (4 \div 8) x 10^{14} cm and \delta n / n ~ 10. The "Episode 3" is identified from t_0+90 s all the way up to 10^{5-6} s: despite the paucity of the early X-ray data, typical in the BATSE, pre-Swift era, we find extremely significant data points in the late X-ray afterglow emission of GRB 970828, which corresponds to the ones observed in all BdHNe sources. The "Episode 4", related to the Supernova emission, does not appear to be observable in this source, due to the presence of darkening from the large density of the GRB environment, also inferred from the analysis of the Episode 2., Comment: 25 pages, 5 figures, submitted to Astron.Rep

Published

2013

20. GRB 090510: a disguised short GRB with the highest Lorentz factor and circumburst medium

Author

Muccino, M., Ruffini, R., Bianco, C. L., Izzo, L., Penacchioni, A. V., and Pisani, G. B.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

GRB 090510, observed both by Fermi and AGILE satellites, is the first bright short-hard Gamma-Ray Burst (GRB) with an emission from the keV up to the GeV energy range. Within the Fireshell model, we interpret the faint precursor in the light curve as the emission at the transparency of the expanding e+e- plasma: the Proper-GRB (P-GRB). From the observed isotropic energy we assume a total energy Ee+e-=(1.10+-0.06)*10^53 erg and derive a Baryon load B=(1.45+-0.28)*10^(-3) and a Lorentz factor at transparency Gamma=(6.7+-1.6)*10^2. The main emission 0.4 s after the initial spike is interpreted as the extended afterglow, due to the interaction of the ultrarelativistic baryons with the CircumBurst Medium (CBM). Using the condition of fully radiative regime, we infer a CBM average spherically symmetric density of nCBM=(1.85+-0.14)10^3 cm^(-3), one of the highest found in the Fireshell model. The value of the filling factor, 1.5*10^(-10)

Published

2013

21. Novel distance indicator for gamma-ray bursts associated with supernovae

Author

Pisani, G. B., Izzo, L., Ruffini, R., Bianco, C. L., Muccino, M., Penacchioni, A. V., Rueda, J. A., and Wang, Y.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

Context. It has been proposed that the temporal coincidence of a gamma-ray burst (GRB) and a type Ib/c supernova (SN) can be explained with the concept of induced gravitational collapse (IGC), induced by the matter ejected from an SN Ib/c accreting onto a neutron star (NS). The NS is expected to reach the critical mass necessary for it to collapse to a black hole (BH) and emit a GRB. We found a standard luminosity light curve behavior in the late-time X-ray emission of this subclass of GRBs. Aims. We test if this standard behavior in the luminosity found in this subclass of GRBs can become a redshift estimator of these sources. Methods. We selected a sample of GRBs that belong to this subclass of IGC GRBs associated to an SN (IGC GRB-SN sources). These sources have an isotropic energy $E_{iso} > 10^{52}$ erg and their cosmological redshifts are in the range of $z = 0.49-1.261$. We focused on the corresponding X-ray luminosity light curves. Results. We find that all GRBs of the sample with measured redshift present a standard luminosity late-time light curve in the $0.3-10$ keV rest-frame energy range. We used these results to estimate the GRB redshift of the sample without a measured redshift and found results consistent with other possible redshift indicators. Conclusions. The standard late-time X-ray luminosity light curve of all GRBs of the sample shows a common physical mechanism in this particular phase of the X-ray emission, possibly related to the creation of the NS from the SN process. This scaling law moreover represents strong evidence of very low or even absent beaming in this late phase of the X-ray afterglow emission process. This could be a fundamental tool for estimating the redshift of GRBs that belong to this subclass of events. We are currently expanding this subclass of GRBs to further verify the universal validity of this new redshift estimation method., Comment: 4 pages, 3 figures

Published

2013

22. A common behavior in the late X-ray afterglow of energetic GRB-SN systems

Author

Izzo, L., Pisani, G. B., Muccino, M., Rueda, J. A., Wang, Y., Bianco, C. L., Penacchioni, A. V., and Ruffini, R.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The possibility to divide GRBs in different subclasses allow to understand better the physics underlying their emission mechanisms and progenitors. The induced gravitational collapse scenario proposes a binary progenitor to explain the time-sequence in GRBs-SNe. We show the existence of a common behavior of the late decay of the X-ray afterglow emission of this subclass of GRBs, pointing to a common physical mechanism of their late emission, consistent with the IGC picture., Comment: 3 pages, to appear in the proceedings of the Gamma-Ray Burst Symposium 2012 - IAA-CSIC - Marbella, editors: Castro-Tirado, A. J., Gorosabel, J. and Park, I. H

Published

2012

23. A COMMON BEHAVIOR IN THE LATE X-RAY AFTERGLOW OF ENERGETIC GRB-SN SYSTEMS

Author

Izzo, L., primary, Pisani, G. B., additional, Muccino, M., additional, Rueda, J. A., additional, Wang, Y., additional, Bianco, C. L., additional, Penacchioni, A. V., additional, and Ruffini, R., additional

Published

2020

24. Predicting supernova associated to gamma-ray burst 130427a

Author

Wang, Y., Ruffini, R., Kovacevic, M., Bianco, C. L., Enderli, M., Muccino, M., Penacchioni, A. V., Pisani, G. B., and Rueda, J. A.

Published

2015

25. Induced gravitational collapse in the BATSE era: The case of GRB 970828

Author

Ruffini, R., Izzo, L., Bianco, C. L., Rueda, J. A., Barbarino, C., Dereli, H., Enderli, M., Muccino, M., Penacchioni, A. V., Pisani, G. B., and Wang, Y.

Published

2015

26. Tracing Dark Energy History with Gamma-Ray Bursts

Author

Muccino, M., Izzo, L., Luongo, O., Boshkayev, K., Amati, L., Della Valle, M., Pisani, G. B., Zaninoni, E., Muccino, M., Izzo, L., Luongo, O., Boshkayev, K., Amati, L., Della Valle, M., Pisani, G. B., and Zaninoni, E.

Abstract

Observations of gamma-ray bursts up to z similar to 9 are best suited to study the possible evolution of the universe equation of state at intermediate redshifts. We apply the Combo relation to a sample of 174 gamma-ray bursts to investigate possible evidence of evolving dark energy parameter w(z). We first build a gamma-ray burst Hubble's diagram and then we estimate the set (omega(m), omega(?)) in the framework of flat and non-flat ?CDM paradigm. We then get bounds over the wCDM model, where w is thought to evolve with redshift, adopting two priors over the Hubble constant in tension at 4.4 sigma, i.e., H-0 = (67.4 0.5) km s(-1) Mpc(-1) and H-0 = (74.03 1.42) km s(-1) Mpc(-1). We show our new sample provides tighter constraints on omega(m) since at z = 1.2 the case w <-1 cannot be fully excluded, indicating that dark energy's influence is not negligible at larger z. We confirm the Combo relation as a powerful tool to investigate cosmological evolution of dark energy. Future space missions will significantly enrich the gamma-ray burst database even at smaller redshifts, improving de facto the results discussed in this paper.

Published

2021

27. The morphology of the X-ray afterglows and of the jetted GeV emission in long GRBs

Author

Ruffini, R, primary, Moradi, R, additional, Rueda, J A, additional, Li, L, additional, Sahakyan, N, additional, Chen, Y-C, additional, Wang, Y, additional, Aimuratov, Y, additional, Becerra, L, additional, Bianco, C L, additional, Cherubini, C, additional, Filippi, S, additional, Karlica, M, additional, Mathews, G J, additional, Muccino, M, additional, Pisani, G B, additional, and Xue, S S, additional

Published

2021

28. Tracing Dark Energy History with Gamma-Ray Bursts

Author

Muccino, M., primary, Izzo, L., additional, Luongo, O., additional, Boshkayev, K., additional, Amati, L., additional, Della Valle, M., additional, Pisani, G. B., additional, and Zaninoni, E., additional

Published

2021

29. Interferon alfa-induced apoptosis on rat preneoplastic liver is mediated by hepatocytic Transforming Growth Factor b1 (TGFb1): APASL\Abstract\149

Author

ALVAREZ, M L, RONCO, M T, OCHOA, J E, MONTI, J A, CARNOVALE, C E, QUIROGA, A D, PISANI, G B, LUGANO, M C, and CARRILLO, M C

Published

2004

30. ROLE OF NITRIC OXIDE ON PROGRAMMED CELL DEATH DURING EARLY STAGES OF RAT LIVER REGENERATION: P4-62

Author

Ronco, M. T., Alvarez, M. L., Monti, J. A., Carrillo, M. C., Pisani, G. B., Lugano, M. C., and Carnovale, C. E.

Published

2004

31. INCIDENCE OF μ-CLASS GLUTATHIONE S-TRANSFERASE SUBUNIT M2 (rGST M2) LEVELS IN THE INITIATION OF HEPATOCELLULAR CARCINOGENESIS IN OLD RATS

Author

Carrillo, M C., Favre, C., Carnovale, C E., Monti, J., Alvarez, M L., Scapini, C., Pisani, G B., and Lugano, M C.

Published

2000

32. On the Ultra-relativistic Prompt Emission, the Hard and Soft X-Ray Flares, and the Extended Thermal Emission in GRB 151027A

Author

Ruffini, R., primary, Becerra, L., additional, Bianco, C. L., additional, Chen, Y. C., additional, Karlica, M., additional, Kovačević, M., additional, Fuksman, J. D. Melon, additional, Moradi, R., additional, Muccino, M., additional, Pisani, G. B., additional, Primorac, D., additional, Rueda, J. A., additional, Vereshchagin, G. V., additional, Wang, Y., additional, and Xue, S. S., additional

Published

2018

33. On the Rate and on the Gravitational Wave Emission of Short and Long GRBs

Author

Ruffini, R., primary, Rodriguez, J., additional, Muccino, M., additional, Rueda, J. A., additional, Aimuratov, Y., additional, Almeida, U. Barres de, additional, Becerra, L., additional, Bianco, C. L., additional, Cherubini, C., additional, Filippi, S., additional, Gizzi, D., additional, Kovacevic, M., additional, Moradi, R., additional, Oliveira, F. G., additional, Pisani, G. B., additional, and Wang, Y., additional

Published

2018

34. Early X-Ray Flares in GRBs

Author

Ruffini, R., Wang, Y., Aimuratov, Y., Barres de Almeida, U., Becerra, L., Bianco, C. L., Chen, Y. C., Karlica, M., Kovacevic, M., Li, Liang, Fuksman, J. D. Melon, Moradi, R., Muccino, M., Penacchioni, A. V., Pisani, G. B., Primorac, D., Rueda, J. A., Shakeri, S., Vereshchagin, G. V., Xue, S. -S., Ruffini, R., Wang, Y., Aimuratov, Y., Barres de Almeida, U., Becerra, L., Bianco, C. L., Chen, Y. C., Karlica, M., Kovacevic, M., Li, Liang, Fuksman, J. D. Melon, Moradi, R., Muccino, M., Penacchioni, A. V., Pisani, G. B., Primorac, D., Rueda, J. A., Shakeri, S., Vereshchagin, G. V., and Xue, S. -S.

Abstract

We analyze the early X-ray flares in the GRB flare-plateau-afterglow (FPA) phase observed by Swift-XRT. The FPA occurs only in one of the seven GRB subclasses: the binary-driven hypernovae (BdHNe). This subclass consists of long GRBs with a carbon-oxygen core and a neutron star (NS) binary companion as progenitors. The hypercritical accretion of the supernova (SN) ejecta onto the NS can lead to the gravitational collapse of the NS into a black hole. Consequently, one can observe a GRB emission with isotropic energy E-iso greater than or similar to 10(52) erg, as well as the associated GeV emission and the FPA phase. Previous work had shown that gamma-ray spikes in the prompt emission occur at similar to 10(15)-10(17) cm with Lorentz Gamma factors Gamma similar to 10(2)-10(3). Using a novel data analysis, we show that the time of occurrence, duration, luminosity, and total energy of the X-ray flares correlate with E-iso. A crucial feature is the observation of thermal emission in the X-ray flares that we show occurs at radii similar to 10(12) cm with Gamma less than or similar to 4. These model-independent observations cannot be explained by the fireball model, which postulates synchrotron and inverse-Compton radiation from a single ultrarelativistic jetted emission extending from the prompt to the late afterglow and GeV emission phases. We show that in BdHNe a collision between the GRB and the SN ejecta occurs at similar or equal to 10(10) cm, reaching transparency at similar to 10(12) cm with Gamma less than or similar to 4. The agreement between the thermal emission observations and these theoretically derived values validates our model and opens the possibility of testing each BdHN episode with the corresponding Lorentz Gamma factor.

Published

2018

35. Early X-Ray Flares in GRBs

Author

Ruffini, R., primary, Wang, Y., additional, Aimuratov, Y., additional, Almeida, U. Barres de, additional, Becerra, L., additional, Bianco, C. L., additional, Chen, Y. C., additional, Karlica, M., additional, Kovacevic, M., additional, Li, L., additional, Fuksman, J. D. Melon, additional, Moradi, R., additional, Muccino, M., additional, Penacchioni, A. V., additional, Pisani, G. B., additional, Primorac, D., additional, Rueda, J. A., additional, Shakeri, S., additional, Vereshchagin, G. V., additional, and Xue, S.-S., additional

Published

2018

36. The cosmic matrix in the 50th anniversary of relativistic astrophysics

Author

Ruffini, R., primary, Aimuratov, Y., additional, Becerra, L., additional, Bianco, C. L., additional, Karlica, M., additional, Kovacevic, M., additional, Fuksman, J. D. Melon, additional, Moradi, R., additional, Muccino, M., additional, Penacchioni, A. V., additional, Pisani, G. B., additional, Primorac, D., additional, Rueda, J. A., additional, Shakeri, S., additional, Vereshchagin, G. V., additional, Wang, Y., additional, and Xue, S.-S., additional

Published

2017

37. The binary systems associated with short and long gamma-ray bursts and their detectability

Author

Rueda, Jorge A., primary, Aimuratov, Y., additional, de Almeida, U. Barres, additional, Becerra, L., additional, Bianco, C. L., additional, Cherubini, C., additional, Filippi, S., additional, Karlica, M., additional, Kovacevic, M., additional, Fuksman, J. D. Melon, additional, Moradi, R., additional, Muccino, M., additional, Penacchioni, A. V., additional, Pisani, G. B., additional, Primorac, D., additional, Ruffini, R., additional, Sahakyan, N., additional, Shakeri, S., additional, and Wang, Y., additional

Published

2017

38. GRB 081024B and GRB 140402A: Two Additional Short GRBs from Binary Neutron Star Mergers

Author

Aimuratov, Y., primary, Ruffini, R., additional, Muccino, M., additional, Bianco, C. L., additional, Penacchioni, A. V., additional, Pisani, G. B., additional, Primorac, D., additional, Rueda, J. A., additional, and Wang, Y., additional

Published

2017

39. ON THE UNIVERSAL LATE X-RAY EMISSION OF BINARY-DRIVEN HYPERNOVAE AND ITS POSSIBLE COLLIMATION

Author

Pisani, G. B., primary, Ruffini, R., additional, Aimuratov, Y., additional, Bianco, C. L., additional, Kovacevic, M., additional, Moradi, R., additional, Muccino, M., additional, Penacchioni, A. V., additional, Rueda, J. A., additional, Shakeri, S., additional, and Wang, Y., additional

Published

2016

40. ON THE CLASSIFICATION OF GRBs AND THEIR OCCURRENCE RATES

Author

Ruffini, R., primary, Rueda, J. A., additional, Muccino, M., additional, Aimuratov, Y., additional, Becerra, L. M., additional, Bianco, C. L., additional, Kovacevic, M., additional, Moradi, R., additional, Oliveira, F. G., additional, Pisani, G. B., additional, and Wang, Y., additional

Published

2016

41. GRB 090510: A GENUINE SHORT GRB FROM A BINARY NEUTRON STAR COALESCING INTO A KERR–NEWMAN BLACK HOLE

Author

Ruffini, R., primary, Muccino, M., additional, Aimuratov, Y., additional, Bianco, C. L., additional, Cherubini, C., additional, Enderli, M., additional, Kovacevic, M., additional, Moradi, R., additional, Penacchioni, A. V., additional, Pisani, G. B., additional, Rueda, J. A., additional, and Wang, Y., additional

Published

2016

42. Evolution of an electron-positron plasma produced by induced gravitational collapse in binary-driven hypernovae.

Author

Melon Fuksman, J. D., Becerra, L., Bianco, C. L., Karlica, M., Kovacevic, M., Moradi, R., Muccino, M., Pisani, G. B., Primorac, D., Rueda, J. A., Ruffini, R., Vereshchagin, G. V., and Wang, Y.

Subjects

ELECTRON-positron plasmas, GRAVITATIONAL collapse, GAMMA ray bursts, BINARY stars, SUPERNOVAE

Abstract

The binary-driven hypernova (BdHN) model has been introduced in the past years, to explain a subfamily of gamma-ray bursts (GRBs) with energies Eiso ≤ 1052 erg associated with type Ic supernovae. Such BdHNe have as progenitor a tight binary system composed of a carbon-oxigen (CO) core and a neutron star undergoing an induced gravitational collapse to a black hole, triggered by the CO core explosion as a supernova (SN). This collapse produces an optically-thick e+e- plasma, which expands and impacts onto the SN ejecta. This process is here considered as a candidate for the production of X-ray flares, which are frequently observed following the prompt emission of GRBs. In this work we follow the evolution of the e+e- plasma as it interacts with the SN ejecta, by solving the equations of relativistic hydrodynamics numerically. Our results are compatible with the Lorentz factors estimated for the sources that produce the flares, of typically Γ ≤ 4. [ABSTRACT FROM AUTHOR]

Published

2018

43. Evolution of an electron-positron plasma produced by induced gravitational collapse in binary-driven hypernovae.

Author

Fuksman, J. D. Melon, Becerra, L., Bianco, C. L., Karlica, M., Kovacevic, M., Moradi, R., Muccino, M., Pisani, G. B., Primorac, D., Rueda, J. A., Ruffini, R., Vereshchagin, G. V., and Wang, Y.

Subjects

ELECTRON-positron plasmas, BINARY stars, GAMMA ray bursts, GRAVITATIONAL collapse, SUPERNOVAE, BLACK holes

Abstract

The binary-driven hypernova (BdHN) model has been introduced in the past years, to explain a subfamily of gamma-ray bursts (GRBs) with energies Eiso ≥ 1052 erg associated with type Ic supernovae. Such BdHNe have as progenitor a tight binary system composed of a carbon-oxigen (CO) core and a neutron star undergoing an induced gravitational collapse to a black hole, triggered by the CO core explosion as a supernova (SN). This collapse produces an optically-thick e+e- plasma, which expands and impacts onto the SN ejecta. This process is here considered as a candidate for the production of X-ray flares, which are frequently observed following the prompt emission of GRBs. In this work we follow the evolution of the e+e- plasma as it interacts with the SN ejecta, by solving the equations of relativistic hydrodynamics numerically. Our results are compatible with the Lorentz factors estimated for the sources that produce the flares, of typically Γ ≲ 4. [ABSTRACT FROM AUTHOR]

Published

2018

44. Induced gravitational collapse in FeCO Core–Neutron star binaries and Neutron star–Neutron star binary mergers

Author

Ruffini, R., primary, Aimuratov, Y., additional, Bianco, C. L., additional, Enderli, M., additional, Kovacevic, M., additional, Moradi, R., additional, Muccino, M., additional, Penacchioni, A. V., additional, Pisani, G. B., additional, Rueda, J. A., additional, and Wang, Y., additional

Published

2015

45. GRB 140619B: A SHORT GRB FROM A BINARY NEUTRON STAR MERGER LEADING TO BLACK HOLE FORMATION

Author

Ruffini, R., primary, Muccino, M., additional, Kovacevic, M., additional, Oliveira, F. G., additional, Rueda, J. A., additional, Bianco, C. L., additional, Enderli, M., additional, Penacchioni, A. V., additional, Pisani, G. B., additional, Wang, Y., additional, and Zaninoni, E., additional

Published

2015

46. The cosmic matrix in the 50th anniversary of relativistic astrophysics.

Author

Ruffini, R., Aimuratov, Y., Becerra, L., Bianco, C. L., Karlica, M., Kovacevic, M., Melon Fuksman, J. D., Moradi, R., Muccino, M., Penacchioni, A. V., Pisani, G. B., Primorac, D., Rueda, J. A., Shakeri, S., Vereshchagin, G. V., Wang, Y., and Xue, S.-S.

Subjects

ASTROPHYSICS, GRAVITATIONAL collapse, COSMIC rays, GAMMA rays, SUPERNOVAE, MICROPHYSICS

Abstract

Our concept of induced gravitational collapse (IGC paradigm) starting from a supernova occurring with a companion neutron star, has unlocked the understanding of seven different families of gamma ray bursts (GRBs), indicating a path for the formation of black holes in the universe. An authentic laboratory of relativistic astrophysics has been unveiled in which new paradigms have been introduced in order to advance knowledge of the most energetic, distant and complex systems in our universe. A novel cosmic matrix paradigm has been introduced at a relativistic cosmic level, which parallels the concept of an S-matrix introduced by Feynmann, Wheeler and Heisenberg in the quantum world of microphysics. Here the 'in' states are represented by a neutron star and a supernova, while the 'out' states, generated within less than a second, are a new neutron star and a black hole. This novel field of research needs very powerful technological observations in all wavelengths ranging from radio through optical, X-ray and gamma ray radiation all the way up to ultra-high-energy cosmic rays. [ABSTRACT FROM AUTHOR]

Published

2017

47. The binary systems associated with short and long gamma-ray bursts and their detectability.

Author

Shakeri, S., Becerra, L., Bianco, C. L., Fuksman, J. D. Melon, Moradi, R., Muccino, M., Pisani, G. B., Primorac, D., Wang, Y., Rueda, Jorge A., Ruffini, R., Aimuratov, Y., Karlica, M., Kovacevic, M., Sahakyan, N., de Almeida, U. Barres, Cherubini, C., Filippi, S., and Penacchioni, A. V.

Subjects

BINARY systems (Astronomy), GAMMA ray bursts, NEUTRON stars, BLACK holes, GRAVITATIONAL collapse

Abstract

Short and long-duration gamma-ray bursts (GRBs) have been recently sub-classified into seven families according to the binary nature of their progenitors. For short GRBs, mergers of neutron star binaries (NS-NS) or neutron star-black hole binaries (NS-BH) are proposed. For long GRBs, the induced gravitational collapse (IGC) paradigm proposes a tight binary system composed of a carbon-oxygen core (CO) and a NS companion. The explosion of the CO as supernova (SN) triggers a hypercritical accretion process onto the NS companion which might reach the critical mass for the gravitational collapse to a BH. Thus, this process can lead either to a NS-BH or to NS-NS depending on whether or not the accretion is sufficient to induce the collapse of the NS into a BH. We shall discuss for the above compact object binaries: (1) the role of the NS structure and the equation-of-state on their final fate; (2) their occurrence rates as inferred from the X and gamma-ray observations; (3) the expected number of detections of their gravitational wave (GW) emission by the Advanced LIGO interferometer. [ABSTRACT FROM AUTHOR]

Published

2017

48. HINTS FOR A PHYSICALLY BASED GRB DISTANCE INDICATOR

Author

IZZO, L., primary, PISANI, G. B., additional, MUCCINO, M., additional, RUFFINI, R., additional, BIANCO, C. L., additional, ENDERLI, M., additional, and WANG, Y., additional

Published

2015

49. GRB 111228, ANALYSIS WITHIN THE INDUCED GRAVITATIONAL COLLAPSE SCENARIO AND ASSOCIATION WITH A SUPERNOVA

Author

PENACCHIONI, A. V., primary, RUFFINI, R., additional, BIANCO, C. L., additional, IZZO, L., additional, MUCCINO, M., additional, and PISANI, G. B., additional

Published

2015

50. ON A NOVEL DISTANCE INDICATOR FOR GAMMA-RAY BURSTS ASSOCIATED WITH SUPERNOVAE

Author

PISANI, G. B., primary, IZZO, L., additional, RUFFINI, R., additional, BIANCO, C. L., additional, MUCCINO, M., additional, PENACCHIONI, A. V., additional, RUEDA, J. A., additional, and WANG, Y., additional

Published

2015