Your search keyword '"Wu, X. -F"' showing total 15 results

1. A peculiar low-luminosity short gamma-ray burst from a double neutron star merger progenitor.

Author

Zhang, B.-B., Zhang, B., Sun, H., Lei, W.-H., Gao, H., Li, Y., Shao, L., Zhao, Y., Hu, Y.-D., Lü, H.-J., Wu, X.-F., Fan, X.-L., Wang, G., Castro-Tirado, A. J., Zhang, S., Yu, B.-Y., Cao, Y.-Y., and Liang, E.-W.

Subjects

GAMMA ray bursts, BINARY stars, NEUTRON stars, STELLAR mergers, GRAVITATIONAL waves, GRAVITATIONAL wave detectors, SPACE telescopes

Abstract

Double neutron star (DNS) merger events are promising candidates of short gamma-ray burst (sGRB) progenitors as well as high-frequency gravitational wave (GW) emitters. On August 17, 2017, such a coinciding event was detected by both the LIGO-Virgo gravitational wave detector network as GW170817 and Gamma-Ray Monitor on board NASA's Fermi Space Telescope as GRB 170817A. Here, we show that the fluence and spectral peak energy of this sGRB fall into the lower portion of the distributions of known sGRBs. Its peak isotropic luminosity is abnormally low. The estimated event rate density above this luminosity is at least 190+440A -160 Gpc-3 yr-1, which is close to but still below the DNS merger event rate density. This event likely originates from a structured jet viewed from a large viewing angle. There are similar faint soft GRBs in the Fermi archival data, a small fraction of which might belong to this new population of nearby, low-luminosity sGRBs. [ABSTRACT FROM AUTHOR]

Published

2018

2. A Photosphere-Internal Shock Model of Fermi/LAT GRBs.

Author

Toma, K., Wu, X.-F., and Mészáros, P.

Subjects

*GAMMA ray bursts, *ELECTRONS, *SCATTERING (Physics), *KINEMATICS, *SYNCHROTRON radiation, *MAGNETIC fields, *COLLISIONS (Nuclear physics)

Abstract

Unsteady baryonic gamma-ray burst (GRB) jets release variable photospheric emission and can have internal shocks occurring far above the photosphere. We generically formulate a photospheric emission model of GRBs including Compton up-scattered photospheric (UP) emission off the electrons (and positrons) in the internal shocks, and find that the photospheric emission may correspond to the traditional (Band) component at <=1 MeV and the UP emission to the high-energy emission observed by Fermi/LAT for some GRBs at >=10 MeV. The two components can be separate in the spectrum in some cases or can mimic a smooth broad Band spectrum in other cases. We apply our formulation to the well-studied long and short LAT GRBs, GRB 080916C, GRB 090902B, and GRB 090510, and find reasonable parameters for fitting the time-binned spectra. The observed delays of the high-energy emission with respect to the MeV emission which are large compared to the variability times are unlikely to be due to simple kinematic effects of a non-evolving jet. These delays may instead be attributed to the temporal evolution of the physical parameters of the jet, and thus the delay timescales could provide a potential tool for investigating the structures of GRB jets themselves and their progenitors. The difference of the delay timescales of long and short GRBs inferred from the Fermi data might be due to the differences in the progenitors of long and short GRBs. [ABSTRACT FROM AUTHOR]

Published

2011

3. External shock model for the radio afterglows of giant flares from soft γ-ray repeaters.

Author

Wang, X. Y., Wu, X. F., Fan, Y. Z., Dai, Z. G., and Zhang, B.

Subjects

*GAMMA ray bursts, *GAMMA rays, *SHOCK waves, *AFTERGLOW (Physics), *ASTRONOMY, *PHYSICS

Abstract

Radio afterglows have been detected following two giant flares from soft gamma repeaters (i.e. SGR1900+14, SGR 1806-20). Recent follow-up observations of the December 27 giant flare of SGR 1806-20 have detected a multi-frequency radio afterglow from 240 MHz to 8.46 GHz, extending in time from one week to about one month after the flare. The angular size of the source was also measured for the first time. Here we show that this radio afterglow gives the first piece of clear evidence that an energetic blast wave sweeps up its surrounding medium and produces a synchrotron afterglow, the same mechanism as established for GRB afterglows. © 2006 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2006

4. THE ORIGIN OF THE PLATEAU AND LATE REBRIGHTENING IN THE AFTERGLOW OF GRB 120326A.

Author

Hou, S. J., Geng, J. J., Wang, K., Wu, X. F., Huang, Y. F., Dai, Z. G., and Lu, J. F.

Subjects

GAMMA ray bursts, LIGHT curves, STELLAR winds, AFTERGLOW (Physics), PULSARS

Abstract

GRB 120326A is an unusual gamma-ray burst (GRB) that has a long plateau and a very late rebrightening in both X-ray and optical bands. The similar behavior of the optical and X-ray light curves suggests that they may share a common origin. The long plateau starts at several hundred seconds and ends at tens of thousands of seconds, and the peak time of the late rebrightening is about 30,000 s. We analyze the energy injection model by means of numerical and analytical solutions, considering both the wind environment and the interstellar medium environment for GRB afterglows. We particularly study the influence of the injection starting time, ending time, stellar wind density (or density of the circumburst environment), and injection luminosity on the shape of the afterglow light curves, respectively. In the wind model, we find that the light curve is largely affected by the parameters and that there is a “bump” in the late stage. In the wind environment, we found that the longer the energy is injected, the more obvious the rebrightening will be. We also find that the peak time of the bump is determined by the stellar wind density. We use the late continuous injection model to interpret the unusual afterglow of GRB 120326A. The model fits the observational data well; however, we find that the timescale of the injection must be higher than 10,000 s, which implies that the timescale of the central engine activity must also be more than 10,000 s. This information can give useful constraints on the central engines of GRBs—we consider a newborn millisecond pulsar with a strong magnetic field to be the central engine. On the other hand, our results suggest that the circumburst environment of GRB 120326A is very likely a stellar wind. [ABSTRACT FROM AUTHOR]

Published

2014

5. DELAYED ENERGY INJECTION MODEL FOR GAMMA-RAY BURST AFTERGLOWS.

Author

Geng, J. J., Wu, X. F., Huang, Y. F., and Yu, Y. B.

Subjects

*GAMMA ray bursts, *AFTERGLOW (Physics), *MAGNETIC dipoles, *MAGNETARS, *ACCRETION (Astrophysics), *BLACK holes

Abstract

The shallow decay phase and flares in the afterglows of gamma-ray bursts (GRBs) are widely believed to be associated with the later activation of the central engine. Some models of energy injection involve a continuous energy flow since the GRB trigger time, such as the magnetic dipole radiation from a magnetar. However, in the scenario involving a black hole accretion system, the energy flow from the fall-back accretion may be delayed for a fall-back time ∼tfb. Thus, we propose a delayed energy injection model. The delayed energy would cause a notable rise to the Lorentz factor of the external shock, which will “generate” a bump in the multiple band afterglows. If the delayed time is very short, our model degenerates to the previous models. Our model can explain the significant re-brightening in the optical and infrared light curves of GRB 081029 and GRB 100621A. A considerable fall-back mass is needed to provide the later energy; this indicates that GRBs accompanied with fall-back material may be associated with a low energy supernova so that the fraction of the envelope can survive during eruption. The fall-back time can give meaningful information on the properties of GRB progenitor stars. [ABSTRACT FROM AUTHOR]

Published

2013

6. Photosphere-internal shock model of gamma-ray bursts: case studies of Fermi/LAT bursts.

Author

Toma, K., Wu, X.-F., and Mészáros, P.

Subjects

*GAMMA ray bursts, *STELLAR photospheres, *CASE studies, *COMPTON electrons, *ELECTRON emission, *ASTRONOMICAL observations, *ENERGY bands

Abstract

BSTRACT Radially inhomogeneous gamma-ray burst (GRB) jets release variable photospheric emission and can have internal shocks occurring above the photosphere. We generically formulate a photospheric emission model of GRBs including Compton up-scattered photospheric (UP) emission off the electrons (and positrons) in the internal shocks, and find that the photospheric emission may correspond to the traditional (band) component at ≲1 MeV and the UP emission to the high-energy emission observed by Fermi/LAT for some GRBs at ≳10 MeV. The two components can be separate from each other in the spectrum in some cases or can mimic a smooth broad-band spectrum in other cases. We apply our formulation to the well-studied long and short LAT GRBs, GRB 080916C, GRB 090902B and GRB 090510, and typically find reasonable parameters for fitting the time-binned spectra, although fine-tuning of several parameters is required. The observed delays of the high-energy emission with respect to the MeV emission which are large compared to the variability times are unlikely to be due to simple kinematic effects of a non-evolving jet. These delays may instead be attributed to the temporal evolution of the physical parameters of the jet, and thus the delay time-scales could provide a potential tool for investigating the structures of GRB jets themselves and their progenitors. The difference of the delay time-scales of long and short GRBs inferred from the Fermi data might be due to the differences in the progenitors of long and short GRBs. Some other properties and consequences of this model are discussed, including temporal correlations among the prompt optical, the soft X-ray and the distinct high-energy component as well as the band component. [ABSTRACT FROM AUTHOR]

Published

2011

7. A PHOTOMETRIC REDSHIFT OF z ~ 9.4 FOR GRB 090429B.

Author

CUCCHIARA, A., LEVAN, A. J., FOX, D. B., TANVIR, N. R., UKWATTA, T. N., BERGER, E., KRÜHLER, T., YOLDAŞ, A. KÜPCÜ, WU, X. F., TOMA, K., GREINER, J., E., F. OLIVARES, ROWLINSON, A., AMATI, L., SAKAMOTO, T., ROTH, K., STEPHENS, A., FRITZ, ALEXANDER, FYNBO, J. P. U., and HJORTH, J.

Subjects

GAMMA ray bursts, REDSHIFT, STAR formation, GALAXY formation, PHOTOMETRY

Abstract

Gamma-ray bursts (GRBs) serve as powerful probes of the early universe, with their luminous afterglows revealing the locations and physical properties of star-forming galaxies at the highest redshifts, and potentially locating first-generation (Population III) stars. Since GRB afterglows have intrinsically very simple spectra, they allow robust redshifts from low signal-to-noise spectroscopy, or photometry. Here we present a photometric redshift of z ~ 9.4 for the Swift detected GRB 090429B based on deep observations with Gemini-North, the Very Large Telescope, and the GRB Optical and Near-infrared Detector. Assuming a Small Magellanic Cloud dust law (which has been found in a majority of GRB sight lines), the 90% likelihood range for the redshift is 9.06 < z < 9.52, although there is a low-probability tail toward somewhat lower redshifts. Adopting Milky Way or Large Magellanic Cloud dust laws leads to very similar conclusions, while a Maiolino law does allow somewhat lower redshift solutions, though in all cases the most likely redshift is found to be z > 7. The non-detection of the host galaxy to deep limits (Y(AB) ~ 28, which would correspond roughly to 0.001 L* at z = 1) in our late-time optical and infrared observations with the Hubble Space Telescope strongly supports the extreme-redshift origin of GRB 090429B, since we would expect to have detected any low-z galaxy, even if it were highly dusty. Finally, the energetics of GRB 090429B are comparable to those of other GRBs and suggest that its progenitor is not greatly different from those of lower redshift bursts. [ABSTRACT FROM AUTHOR]

Published

2011

8. Early afterglows in wind environments revisited.

Author

Zou, Y. C., Wu, X. F., and Dai, Z. G.

Subjects

*STARS, *AFTERGLOW (Physics), *SHOCK waves, *ELECTRIC discharges, *GALAXIES, *LUMINESCENCE, *GAMMA ray bursts

Abstract

When a cold shell sweeps up the ambient medium, a forward shock and a reverse shock will form. We analyse the reverse-forward shocks in a wind environment, including their dynamics and emission. An early afterglow is emitted from the shocked shell, e.g. an optical flash may emerge. The reverse shock behaves differently in two approximations: the relativistic and Newtonian cases, which depend on the parameters, e.g. the initial Lorentz factor of the ejecta. If the initial Lorentz factor is much less than , the early reverse shock is Newtonian. This may take place for the wider of a two-component jet, an orphan afterglow caused by a low initial Lorentz factor and so on. The synchrotron self-absorption effect is significant especially for the Newtonian reverse shock case, as the absorption frequency is larger than the cooling frequency and the minimum synchrotron frequency for typical parameters. For the optical to X-ray band, the flux is nearly unchanged with time during the early period, which may be a diagnostic for the low initial Lorentz factor of the ejecta in a wind environment. We also investigate the early light curves with different wind densities and compare them with those in the interstellar medium model. [ABSTRACT FROM AUTHOR]

Published

2005

9. Gamma-ray bursts: polarization of afterglows from two-component jets.

Author

Wu, X. F., Dai, Z. G., Huang, Y. F., and Lu, T.

Subjects

*ASTROPHYSICS, *OPTICAL polarization, *GRAPHIC methods, *OPTICS, *GAMMA ray bursts, *GAMMA ray astronomy

Abstract

The polarization behaviour of optical afterglows from two-component gamma-ray burst jets are investigated, assuming various configurations for the two components. In most cases, the observed polarization is dominated by the inner narrow component for a long period. Interestingly, it is revealed that different assumptions concerning the lateral expansion of the jet can lead to different evolutions of the position angle of polarization. The observed afterglow light curve and polarization behaviour of GRB 020813 can be well explained by the two-component jet model. In particular, the model is able to explain the constancy of the observed position angle in this event, given that the line of sight is slightly outside the narrow component. [ABSTRACT FROM AUTHOR]

Published

2005

10. Testing the predictions of the universal structured jet model of gamma-ray bursts by simulations.

Author

Liang, E. W., Wu, X. F., and Dai, Z. G.

Subjects

*GAMMA ray bursts, *GAMMA ray astronomy, *X-ray bursts, *X-ray astronomy, *ASTRONOMY, *ASTROPHYSICS, *PHYSICS

Abstract

Based on the standard energy reservoir of gamma-ray burst (GRB) jets and the relationship between the peak energy (Ep) of thespectrum and the equivalent isotropic energy, we test the GRB probability distributions as a function of viewing angle (θ) and of viewing angle together with redshift (z),and, predicted by the universal structured jet (USJ) model with simulations on observational bases for a detection threshold oferg cm−2, whereSis the total fluence in an energy band>20 keV. We simulate a sample including 106 GRBs, and then deriveand. We show that both simulated and theoreticalandare consistent with each other. This consistency seems to be regarded as support for the USJ model. A small difference between the theoretical and simulated results might be due to the observedEp distribution used in our simulations, which perhaps suffers a little of biases forkeV. [ABSTRACT FROM AUTHOR]

Published

2004

11. GRB 060206: Evidence of Precession of Central Engine.

Author

Liu, X. W., Wu, X. F., and Lu, T.

Subjects

*GAMMA ray bursts, *PRECESSION, *X-ray spectroscopy, *SPECTRUM analysis, *GAMMA rays

Abstract

The high-redshift (z = 4.048) gamma-ray burst GRB 060206 showed unusual behavior, with a significant re-brightening about 3000 s after the burst. We assume that the central engine became active again 2000 s after the main burst and drove another more collimated off-axis jet. The two jets both interacted with the ambient medium and contributed to the whole emission. We numerically fit this optical afterglow from the two jets using the forward-shock model and the forward-reverse shock model. Combining with the zero time effect, we suggest that the fast rise at ∼3000 s in the afterglow was due to the off-axis emission from the second jet. The precession of the torus or accretion disk of the gamma ray burst engine is the natural explanation for the symmetry axes of these two jets not to lie on the same line. [ABSTRACT FROM AUTHOR]

Published

2008

12. SUPERLUMINOUS SUPERNOVAE POWERED BY MAGNETARS: LATE-TIME LIGHT CURVES AND HARD EMISSION LEAKAGE.

Author

Wang, S. Q., Wang, L. J., Dai, Z. G., and Wu, X. F.

Subjects

MAGNETARS, SUPERNOVAE, PHOTONS, SPECTRUM analysis, GAMMA ray bursts, GAMMA ray astronomy

Abstract

Recently, research performed by two groups has revealed that the magnetar spin-down energy injection model with full energy trapping can explain the early-time light curves of SN 2010gx, SN 2013dg, LSQ12dlf, SSS120810, and CSS121015 but fails to fit the late-time light curves of these superluminous supernovae (SLSNe). These results imply that the original magnetar-powered model is challenged in explaining these SLSNe. Our paper aims to simultaneously explain both the early- and late-time data/upper limits by considering the leakage of hard emissions. We incorporate quantitatively the leakage effect into the original magnetar-powered model and derive a new semianalytical equation. Comparing the light curves reproduced by our revised magnetar-powered model with the observed data and/or upper limits of these five SLSNe, we found that the late-time light curves reproduced by our semianalytical equation are in good agreement with the late-time observed data and/or upper limits of SN 2010gx, CSS121015, SN 2013dg, and LSQ12dlf and the late-time excess of SSS120810, indicating that the magnetar-powered model might be responsible for these SLSNe and that the gamma-ray and X-ray leakages are unavoidable when the hard photons were down-Comptonized to softer photons. To determine the details of the leakage effect and unveil the nature of SLSNe, more high-quality bolometric light curves and spectra of SLSNe are required. [ABSTRACT FROM AUTHOR]

Published

2015

13. THE OPTICAL LUMINOSITY FUNCTION OF GAMMA-RAY BURSTS DEDUCED FROM ROTSE-III OBSERVATIONS.

Author

Cui, X. H., Wu, X. F., Wei, J. J., Yuan, F., Zheng, W. K., Liang, E. W., Akerlof, C. W., Ashley, M. C. B., Flewelling, H. A., Göǧüş, E., Güver, T., Kızıloǧlu, Ü, McKay, T. A., Pandey, S. B., Rykoff, E. S., Rujopakarn, W., Schaefer, B. E., Wheeler, J. C., and Yost, S. A.

Subjects

*LUMINOSITY, *GAMMA ray bursts, *X-ray bursts, *STARQUAKES, *ASTROPHYSICS

Abstract

We present the optical luminosity function (LF) of gamma-ray bursts (GRBs) estimated from a uniform sample of 58 GRBs from observations with the Robotic Optical Transient Search Experiment III (ROTSE-III). Our GRB sample is divided into two sub-samples: detected afterglows (18 GRBs) and those with upper limits (40 GRBs). We derive R-band fluxes for these two sub-samples 100 s after the onset of the burst. The optical LFs at 100 s are fitted by assuming that the co-moving GRB rate traces the star formation rate. While fitting the optical LFs using Monte Carlo simulations, we take into account the detection function of ROTSE-III. We find that the cumulative distribution of optical emission at 100 s is well described by an exponential rise and power-law decay, a broken power law,and Schechter LFs. A single power-law (SPL) LF, on the other hand, is ruled out with high confidence. [ABSTRACT FROM AUTHOR]

Published

2014

14. REVISITING THE EMISSION FROM RELATIVISTIC BLAST WAVES IN A DENSITY-JUMP MEDIUM.

Author

Geng, J. J., Wu, X. F., Li, Liang, Huang, Y. F., and Dai, Z. G.

Subjects

*GAMMA ray bursts, *AFTERGLOW (Physics), *DIFFERENTIAL equations, *HYDRODYNAMICS, *GAMMA ray astronomy

Abstract

Re-brightening bumps are frequently observed in gamma-ray burst afterglows. Many scenarios have been proposed to interpret the origin of these bumps, of which a blast wave encountering a density-jump in the circumburst environment has been questioned by recent works. We develop a set of differential equations to calculate the relativistic outflow encountering the density-jump by extending the work of Huang et al. This approach is a semi-analytic method and is very convenient. Our results show that late high-amplitude bumps cannot be produced under common conditions, rather only a short plateau may emerge even when the encounter occurs at an early time (<104 s). In general, our results disfavor the density-jump origin for those observed bumps, which is consistent with the conclusion drawn from full hydrodynamics studies. The bumps thus should be caused by other scenarios. [ABSTRACT FROM AUTHOR]

Published

2014

15. PANCHROMATIC OBSERVATIONS OF THE TEXTBOOK GRB 110205A: CONSTRAINING PHYSICAL MECHANISMS OF PROMPT EMISSION AND AFTERGLOW.

Author

Zheng, W., Shen, R. F., Sakamoto, T., Beardmore, A. P., De Pasquale, M., Wu, X. F., Gorosabel, J., Urata, Y., Sugita, S., Zhang, B., Pozanenko, A., Nissinen, M., Sahu, D. K., Im, M., Ukwatta, T. N., Andreev, M., Klunko, E., Volnova, A., Akerlof, C. W., and Anto, P.

Subjects

GAMMA ray astronomy, GAMMA ray bursts, ENERGY dissipation, METAPHYSICAL cosmology, ASTROPHYSICS research

Abstract

We present a comprehensive analysis of a bright, long-duration (T90 ∼ 257 s) GRB 110205A at redshift z = 2.22. The optical prompt emission was detected by Swift/UVOT, ROTSE-IIIb, and BOOTES telescopes when the gamma-ray burst (GRB) was still radiating in the γ-ray band, with optical light curve showing correlation with γ-ray data. Nearly 200 s of observations were obtained simultaneously from optical, X-ray, to γ-ray (1 eV to 5 MeV), which makes it one of the exceptional cases to study the broadband spectral energy distribution during the prompt emission phase. In particular, we clearly identify, for the first time, an interesting two-break energy spectrum, roughly consistent with the standard synchrotron emission model in the fast cooling regime. Shortly after prompt emission (∼1100 s), a bright (R = 14.0) optical emission hump with very steep rise (α ∼ 5.5) was observed, which we interpret as the reverse shock (RS) emission. It is the first time that the rising phase of an RS component has been closely observed. The full optical and X-ray afterglow light curves can be interpreted within the standard reverse shock (RS) + forward shock (FS) model. In general, the high-quality prompt and afterglow data allow us to apply the standard fireball model to extract valuable information, including the radiation mechanism (synchrotron), radius of prompt emission (RGRB ∼ 3 × 1013 cm), initial Lorentz factor of the outflow (Γ0 ∼ 250), the composition of the ejecta (mildly magnetized), the collimation angle, and the total energy budget. [ABSTRACT FROM AUTHOR]

Published

2012