Your search keyword '"McEnery, J"' showing total 16 results

1. Fermi-LAT observations of long-lasting high-energy emission from GRB 090323 and GRB 090328.

Author

Piron, F., McEnery, J., and Vasileiou, V.

Subjects

*GAMMA ray bursts, *SPACE telescopes, *REDSHIFT, *PHOTONS, *SPACE vehicles, *DETECTORS, *SYNCHROTRONS

Abstract

We present the observations of temporally-extended high-energy Gamma-Ray Burst (GRB) emission by the Fermi Large Area Telescope (LAT), focusing on the bright LAT bursts with known redshift GRB 090323 and GRB 090328. In both cases, an Autonomous Repoint Request (ARR) allowed the long-lasting emission to be monitored for 5 hours and a significant high-energy signal was detected up to several kilo-seconds. We report on the prompt phase observations and on the analysis of the spectral and temporal properties of the temporally extended emission in the LAT. [ABSTRACT FROM AUTHOR]

Published

2011

2. The Milagro gamma-ray observatory.

Author

McEnery, J. E., Atkins, R., Benbow, W., Berley, D., Chen, M. L., Coyne, D. G., Dingus, B. L., Dorfan, D. E., Ellsworth, R. W., Evans, D., Falcone, A., Fleysher, L., Fleysher, R., Gisler, G., Goodman, J. A., Haines, T. J., Hoffman, C. M., Hugenberger, S., Kelley, L. A., and Leonor, I.

Subjects

*CHERENKOV counters, *NORTHERN sky (Astronomy), *CRAB Nebula

Abstract

The Milagro water Cherenkov detector began full operation in January 2000. This detector is capable of monitoring the Northern sky at energies above 500 GeV for sources of equivalent strength to the Crab Nebula over one year of integration. We report on the current performance and sensitivity of Milagro. [ABSTRACT FROM AUTHOR]

Published

2001

3. Evidence for TeV emission from GRB 970417a.

Author

McEnery, J. E., Atkins, R., Benbow, W., Berley, D., Chen, M. L., Coyne, D. G., Dingus, B. L., Dorfan, D. E., Ellsworth, R. W., Evans, D., Falcone, A., Fleysher, L., Fleysher, R., Gisler, G., Goodman, J. A., Haines, T. J., Hoffman, C. M., Hugenberger, S., Kelley, L. A., and Leonor, I.

Subjects

*FORCE & energy, *EMISSION spectroscopy, *GAMMA ray bursts

Abstract

Milagrito, a detector sensitive to γ-rays at TeV energies, monitored the northern sky during the period February 1997 through May 1998. With a large field of view and high duty cycle, this instrument was used to perform a search for TeV counterparts to γ-ray bursts. BATSE detected 54 GRBs within the field of view of Milagrito during this period. This paper describes the results of an analysis to search for TeV emission correlated with BATSE detected bursts. Milagrito detected an excess of events coincident both spatially and temporally with GRB 970417a, with chance probability 2.8×10[sup -5] within the BATSE error radius. No other significant correlations were detected. Since 54 bursts were examined, the chance probability of observing an excess with at least this significance in any of these bursts is 1.5×10[sup -3]. © 2000 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2000

4. First results of a study of TeV emission from GRBs in Milagrito.

Author

McEnery, J. E., Atkins, R., Benbow, W., Berley, D., Chen, M. L., Coyne, D. G., Dingus, B. L., Dorfan, D. E., Ellsworth, R. W., Evans, D., Falcone, A., Fleysher, L., Fleysher, R., Gisler, G., Goodman, J. A., Haines, T. J., Hoffman, C. M., Hugenberger, S., Kelley, L. A., and Leonor, I.

Subjects

*GAMMA ray bursts, *DETECTORS

Abstract

Milagrito, a detector sensitive to γ-rays at TeV energies, monitored the northern sky during the period February 1997 through May 1998. With a large field of view and high duty cycle, this instrument was used to perform a search for TeV counterparts to γ-ray bursts. Within the Milagrito field of view 54 γ-ray bursts at keV energies were observed by the Burst And Transient Satellite Experiment (BATSE) aboard the Compton Gamma-Ray Observatory. This paper describes the results of a preliminary analysis to search for TeV emission correlated with BATSE detected bursts. Milagrito detected an excess of events coincident both spatially and temporally with GRB 970417a, with chance probability 2.8×10[sup -5] within the BATSE error radius. No other significant correlations were detected. Since 54 bursts were examined the chance probability of observing an excess with this significance in any of these bursts is 1.5×10[sup -3]. The statistical aspects and physical implications of this result are discussed. © 2000 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2000

5. VHE Observations of GRB with Milagro.

Author

McEnery, J. E.

Subjects

*OBSERVATORIES, *CHERENKOV counters, *GAMMA ray bursts

Abstract

The Milagro gamma-ray observatory employs a novel water Cherenkov detector to observe extended air showers produced by high energy particles impacting the earth's atmosphere. The detector consists of a large pond instrumented with an array of 723 photomultiplier tubes. The instrument operates 24 hours a day and continuously observes the entire overhead sky (∼2 sr). Because of its wide field of view and high duty cycle Milagro is uniquely capable of searching for gamma-ray bursts. Milagro can play a role in the extension of the measured spectrum of prompt and afterglow emission to VHE energies (>500 GEV). Detection of VHE counterparts would place powerful constraints on GRB mechanisms, and because of their attenuation from pair production on background IR fields, provide an additional estimate of the source redshift when optical lines cannot be detected. More than 20 GRB have occurred within the field of view of Milagro since observations began in January 2000. We describe the results of a search for VHE counterparts to these GRB. [ABSTRACT FROM AUTHOR]

Published

2003

6. Gamma-Ray Burst observations with GLAST and TeV observatories.

Author

Longo, F., McEnery, J., Omodei, N., Bastieri, D., and Piron, F.

Subjects

*GAMMA rays, *GAMMA ray bursts, *EMISSION spectroscopy, *TELESCOPES, *PARTICLES (Nuclear physics)

Abstract

The Gamma-Ray Large Area Space Telescope (GLAST), scheduled to be launched in 2007, will provide the capability to observe Gamma-Ray Bursts (GRB) from 10 keV to more than 300 GeV. The spectral and temporal properties of GRBs above a few GeV are still almost unknown, extending these detections to higher energies with GLAST will have a large impact on our knowledge of the particle acceleration and emission processes occuring within these sources. In this work we review the requirements and the opportunities for good coordination of GLAST with ground-based telescopes operating above a few tens of GeV, and examine the potential of such simultaneous observations in terms of expected rates of alerts. © 2007 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2007

7. Detection of Thermal Spectral components in the Prompt Emission of GRBs.

Author

Guiriec, S., Connaughton, V., Briggs, M., Daigne, F., Ryde, F., Mészáros, P., McEnery, J., and Omodei, N.

Subjects

*GAMMA ray bursts, *SOLAR photosphere, *POYNTING theorem, *RELATIVISTIC particles, *THOMSON scattering, *ELECTRONS, *SPACE telescopes

Abstract

Observations of GRB 100724B with the Fermi Gamma-Ray Burst Monitor (GBM) find that the spectrum is dominated by the typical Band functional form, which is usually taken to represent a non-thermal emission component, but also includes a statistically highly significant thermal spectral contribution [14]. The simultaneous observation of the thermal and non-thermal components allows us to confidently identify the two emission components. The fact that these seem to vary independently favors the idea that the thermal component is of photospheric origin while the dominant non-thermal emission occurs at larger radii. Our results imply either a very high efficiency for the non-thermal process, or a very small size of the region at the base of the flow, both quite challenging for the standard fireball model. These problems are resolved if the jet is initially highly magnetized and has a substantial Poynting flux. [ABSTRACT FROM AUTHOR]

Published

2011

8. FERMI GBM CAPABILITIES FOR MULTI-MESSENGER TIME-DOMAIN ASTRONOMY.

Author

Connaughton, V., Pelassa, V., Briggs, M. S., Jenke, P., Troja, E., McEnery, J. E., and Blackburn, L.

Subjects

*GAMMA ray bursts, *ELECTROMAGNETISM, *GRAVITY, *GAMMA rays, *COSMIC rays

Abstract

Owing to its wide sky coverage and broad energy range, the Fermi Gamma-ray Burst Monitor (GBM) is an excellent observer of the transient hard X-ray sky. GBM detects about 240 triggered Gamma-Ray Bursts (GRBs) per year, including over 30 which also trigger the Swift Burst Alert Telescope (BAT). The number of GRBs seen in common with Swift is smaller than expected from the overlap in sky coverage because GBM is not as sensitive as the BAT and the GBM GRB population is thus skewed to the brighter, closer bursts. This population includes about 45 short GRBs per year, giving GBM an excellent opportunity to observe the electromagnetic counterpart to any gravitational wave candidate resulting from the merger of compact binary members. The same characteristics make GBM an ideal partner for neutrino searches from nearby GRBs, and for the elusive Very-High Energy (VHE) counterparts to GRBs. With the deployment of the next-generation gravitational-wave detectors (Advanced LIGO/VIRGO) and VHE experiments (CTA and HAWC) potentially within the lifetime of the Fermi Gamma-ray Space Telescope, the prospects for breakthrough observations are good. [ABSTRACT FROM AUTHOR]

Published

2013

9. EVIDENCE FOR A PHOTOSPHERIC COMPONENT IN THE PROMPT EMISSION OF THE SHORT GRB 120323A AND ITS EFFECTS ON THE GRB HARDNESS–LUMINOSITY RELATION.

Author

GUIRIEC, S., DAIGNE, F., HASCOËT, R., VIANELLO, G., RYDE, F., MOCHKOVITCH, R., KOUVELIOTOU, C., XIONG, S., BHAT, P. N., FOLEY, S., GRUBER, D., BURGESS, J. M., MCGLYNN, S., MCENERY, J., and GEHRELS, N.

Subjects

*STELLAR luminosity function, *GAMMA ray bursts, *STELLAR radiation, *SPACE telescopes, *HARDNESS, *COSMOLOGICAL distances

Abstract

The short GRB 120323A had the highest flux ever detected with the Gamma-Ray Burst Monitor on board the Fermi Gamma-Ray Space Telescope. Here we study its remarkable spectral properties and their evolution using two spectral models: (1) a single emission component scenario, where the spectrum is modeled by the empirical Band function (a broken power law), and (2) a two-component scenario, where thermal (a Planck-like function) emission is observed simultaneously with a non-thermal component (a Band function).We find that the latter model fits the integrated burst spectrum significantly better than the former, and that their respective spectral parameters are dramatically different: when fit with a Band function only, the Epeak of the event is unusually soft for a short gamma-ray burst (GRB; 70 keV compared to an average of 300 keV), while adding a thermal component leads to more typical short GRB values (Epeak ~ 300 keV). Our time-resolved spectral analysis produces similar results.We argue here that the two-component model is the preferred interpretation for GRB 120323A based on (1) the values and evolution of the Band function parameters of the two component scenario, which are more typical for a short GRB, and (2) the appearance in the data of a significant hardness–intensity correlation, commonly found in GRBs, when we employee two-component model fits; the correlation is non-existent in the Band-only fits.GRB 110721A, a long burst with an intense photospheric emission, exhibits the exact same behavior.We conclude that GRB 120323A has a strong photospheric emission contribution, observed for the first time in a short GRB. Magnetic dissipation models are difficult to reconcile with these results, which instead favor photospheric thermal emission and fast cooling synchrotron radiation from internal shocks. Finally, we derive a possibly universal hardness–luminosity relation in the source frame using a larger set of GRBs (LiBand = (1.59 ± 0.84) × 1050(Epeak,irest)1.33±0.07 erg s-1), which could be used as a possible redshift estimator for cosmology. [ABSTRACT FROM AUTHOR]

Published

2013

10. FERMI LARGE AREA TELESCOPE OBSERVATIONS OF THE ACTIVE GALAXY 4C +55.17: STEADY, HARD GAMMA-RAY EMISSION AND ITS IMPLICATIONS.

Author

MCCONVILLE, W., OSTORERO, L., MODERSKI, R., STAWARZ, Ł., CHEUNG, C. C., AJELLO, M., BOUVIER, A., BREGEON, J., DONATO, D., FINKE, J., FURNISS, A., MCENERY, J. E., MONZANI, M. E., ORIENTI, M., REYES, L. C., ROSSETTI, A., and WILLIAMS, D. A.

Subjects

*TELESCOPES, *GALAXIES, *GALACTIC nuclei, *GAMMA rays, *RADIATION

Abstract

We report Fermi Large Area Telescope (LAT) observations and broadband spectral modeling of the radio-loud active galaxy 4C +55.17 (z = 0.896), formally classified as a fiat-spectrum radio quasar. Using 19 months of all-sky survey Fermi-LAtT data, we detect a γ-ray continuum extending up to an observed energy of 145 GeV, and furthermore we find no evidence of γ-ray variability in the source over its observed history. We illustrate the implications of these results in two different domains. First, we investigate the origin of the steady γ-ray emission, where we re-examine the common classification of 4C +55.17 as a quasar-hosted blazar and consider instead its possible nature as a young radio source. We analyze and compare constraints on the source physical parameters in both blazar and young radio source scenarios by means of a detailed multiwavelength analysis and theoretical modeling of its broadband spectrum. Second, we show that the γ-ray spectrum may be formally extrapolated into the very high energy (VHE, ≥ 100 GeV) range at a flux level detectable by the current generation of ground-based Cherenkov telescopes. This enables us to place constraints on models of extragalactic background light within LAT energies and features the source as a promising candidate for VHE studies of the universe at an unprecedented redshift of z = 0.896. [ABSTRACT FROM AUTHOR]

Published

2011

11. FERMI AND SWIFT GAMMA-RAY BURST AFTERGLOW POPULATION STUDIES.

Author

RACUSIN, J. L., OATES, S. R., SCHADY, P., BURROWS, D. N., DE PASQUALE, M., DONATO, D., GEHRELS, N., KOCH, S., MCENERY, J., PIRAN, T., ROMING, P., SAKAMOTO, T., SWENSON, C., TROJA, E., VASILEIOUF, V., WANDERMAN, VIRGIL D., and ZHANG, B.

Subjects

*GAMMA rays, *TELESCOPES, *ASTRONOMY, *GAMMA ray bursts, *X-ray bursts, *GAMMA ray astronomy

Abstract

The new and extreme population of gamma-ray bursts (GRBs) detected by the Fermi Large Area Telescope (LAT) shows several new features in high-energy gamma rays that are providing interesting and unexpected clues into GRB prompt and afterglow emission mechanisms. Over the last six years, it has been Swift that has provided the robust data set of UV/optical and X-ray afterglow observations that opened many windows into components of GRB emission structure. The relationship between the LAT-detected GRBs and the well-studied, fainter, and less energetic GRBs detected by the Swift Burst Alert Telescope is only beginning to be explored by multi-wavelength studies. We explore the large sample of GRBs detected by BAT only, BAT and the Fermi Gamma-ray Burst Monitor (GBM), and GBM and LAT, focusing on these samples separately in order to search for statistically significant differences between the populations, using only those GRBs with measured redshifts in order to physically characterize these objects. We disentangle which differences are instrumental selection effects versus intrinsic properties in order to better understand the nature of the special characteristics of the LAT bursts. [ABSTRACT FROM AUTHOR]

Published

2011

12. GLAST and Ground-based γ-ray astronomy.

Author

Funk, S., Carson, J. E., Giebels, B., Longo, F., McEnery, J. E., Paneque, D., Reimer, O., and Reyes, L. C.

Subjects

*GAMMA ray telescopes, *RADIATION sources, *CHERENKOV radiation, *QUANTUM optics, *RADIATION, *SUPERNOVA remnants

Abstract

The launch of the Gamma-ray Large Area Space Telescope (GLAST) in 2007 will open the possibility of combined studies of astrophysical sources with existing ground-based VHE γ-ray experiments such as H.E.S.S., VERITAS and MAGIC. Ground-based γ-ray observatories provide complementary capabilities for spectral, temporal, spatial and population studies of high-energy γ-ray sources. Joint observations cover a huge energy range, from 20 MeV to over 50 TeV. The LAT will survey the entire sky every three hours, allowing us to perform long-term monitoring of variable sources under uniform observation conditions and to detect flaring sources promptly. Imaging atmospheric Cherenkov telescopes (IACTs) will complement these observations with high-sensitivity pointed observations on regions of interest. © 2007 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2007

13. The GLAST Background Model.

Author

Ormes, J. F., Atwood, W., Burnett, T., Grove, E., Longo, F., McEnery, J., Mizuno, T., and Ritz, S.

Subjects

*COSMIC rays, *PROTONS, *ELECTRONS, *POSITRONS, *SPACE debris, *GAMMA rays

Abstract

In order to estimate the ability of the GLAST/LAT to reject unwanted background of charged particles, optimize the on-board processing, size the required telemetry and optimize the GLAST orbit, we developed a detailed model of the background particles that would affect the LAT. In addition to the well-known components of the cosmic radiation, we included splash and reentrant components of protons, electrons (e+ and e-) from 10 MeV and beyond as well as the albedo gamma rays produced by cosmic ray interactions with the atmosphere. We made estimates of the irreducible background components produced by positrons and hadrons interacting in the multilayered micrometeorite shield and spacecraft surrounding the LAT and note that because the orbital debris has increased, the shielding required and hence the background are larger than were present in EGRET. Improvements to the model are currently being made to include the east-west effect. © 2007 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2007

14. SWIFT AND FERMI OBSERVATIONS OF X-RAY FLARES: THE CASE OF LATE INTERNAL SHOCK.

Author

Troja, E., Piro, L., Vasileiou, V., Omodei, N., Burgess, J. M., Cutini, S., Connaughton, V., and McEnery, J. E.

Subjects

*GAMMA ray astronomy, *GAMMA ray bursts, *X-ray astronomy, *X-ray bursts, *ASTRONOMICAL observations

Abstract

Simultaneous Swift and Fermi observations of gamma-ray bursts (GRBs) offer a unique broadband view of their afterglow emission, spanning more than 10 decades in energy. We present the sample of X-ray flares observed by both Swift and Fermi during the first three years of Fermi operations. While bright in the X-ray band, X-ray flares are often undetected at lower (optical), and higher (MeV to GeV) energies. We show that this disfavors synchrotron self-Compton processes as the origin of the observed X-ray emission. We compare the broadband properties of X-ray flares with the standard late internal shock model, and find that in this scenario, X-ray flares can be produced by a late-time relativistic (Γ > 50) outflow at radii R ∼ 1013-1014 cm. This conclusion holds only if the variability timescale is significantly shorter than the observed flare duration, and implies that X-ray flares can directly probe the activity of the GRB central engine. [ABSTRACT FROM AUTHOR]

Published

2015

15. TIME RESOLVED SPECTROSCOPY OF SGR J1550–5418 BURSTS DETECTED WITH FERMI/GAMMA-RAY BURST MONITOR.

Author

Younes, G., Kouveliotou, C., van der Horst, A. J., Baring, M. G., Granot, J., Watts, A. L., Bhat, P. N., Collazzi, A., Gehrels, N., Gorgone, N., Göğüş, E., Gruber, D., Grunblatt, S., Huppenkothen, D., Kaneko, Y., von Kienlin, A., van der Klis, M., Lin, L., Mcenery, J., and van Putten, T.

Subjects

*TIME-resolved spectroscopy, *GAMMA ray bursts, *MAGNETARS, *PHOTON emission, *SPECTRUM analysis

Abstract

We report on a time-resolved spectroscopy of the 63 brightest bursts of SGR J1550–5418, detected with the Fermi/Gamma-ray Burst Monitor during its 2008-2009 intense bursting episode. We performed spectral analysis down to 4 ms timescales to characterize the spectral evolution of the bursts. Using a Comptonized model, we find that the peak energy, Epeak, anti-correlates with flux, while the low-energy photon index remains constant at ∼ – 0.8 up to a flux limit F ≈ 10–5 erg s–1 cm–2. Above this flux value, the Epeak–flux correlation changes sign, and the index positively correlates with the flux reaching ∼1 at the highest fluxes. Using a two blackbody model, we find that the areas and fluxes of the two emitting regions correlate positively. Further, we study here for the first time the evolution of the temperatures and areas as a function of flux. We find that the area–kT relation follows the lines of constant luminosity at the lowest fluxes, R2∝kT–4, with a break at the higher fluxes (F > 10–5.5 erg s–1 cm–2). The area of the high-kT component increases with the flux while its temperature decreases, which we interpret as being due to an adiabatic cooling process. The area of the low-kT component, on the other hand, appears to saturate at the highest fluxes, toward Rmax ≈ 30 km. Assuming that crust quakes are responsible for soft gamma repeater (SGR) bursts and considering Rmax as the maximum radius of the emitting photon-pair plasma fireball, we relate this saturation radius to a minimum excitation radius of the magnetosphere, and we put a lower limit on the internal magnetic field of SGR J1550–5418, Bint ≳ 4.5 × 1015 G. [ABSTRACT FROM AUTHOR]

Published

2014

16. SPECTRUM AND MORPHOLOGY OF THE TWO BRIGHTEST MILAGRO SOURCES IN THE CYGNUS REGION: MGRO J2019+37 AND MGRO J2031+41.

Author

Abdo, A. A., Abeysekara, U., Allen, B. T., Aune, T., Berley, D., Bonamente, E., Christopher, G. E., DeYoung, T., Dingus, B. L., Ellsworth, R. W., Galbraith-Frew, J. G., Gonzalez, M. M., Goodman, J. A., Hoffman, C. M., Hüntemeyer, P. H., Hui, C. M., Kolterman, B. E., Linnemann, J. T., McEnery, J. E., and Mincer, A. I.

Subjects

*CYGNUS (Constellation), *COSMIC rays, *GAMMA rays, *PULSARS, *STAR clusters

Abstract

The Cygnus region is a very bright and complex portion of the TeV sky, host to unidentified sources and a diffuse excess with respect to conventional cosmic-ray propagation models. Two of the brightest TeV sources, MGRO J2019+37 and MGRO J2031+41, are analyzed using Milagro data with a new technique, and their emission is tested under two different spectral assumptions: a power law and a power law with an exponential cutoff. The new analysis technique is based on an energy estimator that uses the fraction of photomultiplier tubes in the observatory that detect the extensive air shower. The photon spectrum is measured in the range 1-100 TeV using the last three years of Milagro data (2005-2008), with the detector in its final configuration. An F-test indicates that MGRO J2019+37 is better fit by a power law with an exponential cutoff than by a simple power law. The best-fitting parameters for the power law with exponential cutoff model are a normalization at 10 TeV of 7+5–2 × 10–10 s–1 m–2 TeV–1, a spectral index of 2.0+0.5–1.0, and a cutoff energy of 29+50–16 TeV. MGRO J2031+41 shows no evidence of a cutoff. The best-fitting parameters for a power law are a normalization of 2.1+0.6–0.6 × 10–10 s–1 m–2 TeV–1 and a spectral index of 3.22+0.23–0.18. The overall flux is subject to a ∼30% systematic uncertainty. The systematic uncertainty on the power-law indices is ∼0.1. Both uncertainties have been verified with cosmic-ray data. A comparison with previous results from TeV J2032+4130, MGRO J2031+41, and MGRO J2019+37 is also presented. [ABSTRACT FROM AUTHOR]

Published

2012