FERMI LAT STACKING ANALYSIS of SWIFT LOCALIZED GRBs

M. Ackermann; M. Ajello; B. Anderson; W. B. Atwood; M. Axelsson; L. Baldini; G. Barbiellini; D. Bastieri; R. Bellazzini; P. N. Bhat; E. Bissaldi; R. Bonino; E. Bottacini; T. J. Brandt; J. Bregeon; P. Bruel; R. Buehler; S. Buson; G. A. Caliandro; R. A. Cameron; M. Caragiulo; P. A. Caraveo; C. Cecchi; E. Charles; A. Chekhtman; J. Chiang; G. Chiaro; S. Ciprini; R. Claus; J. Cohen-Tanugi; J. Conrad; S. Cutini; F. D'Ammando; A. De Angelis; F. De Palma; R. Desiante; L. Di Venere; P. S. Drell; C. Favuzzi; W. B. Focke; A. Franckowiak; S. Funk; P. Fusco; F. Gargano; D. Gasparrini; N. Gehrels; N. Giglietto; F. Giordano; M. Giroletti; G. Godfrey; I. A. Grenier; J. E. Grove; S. Guiriec; J. W. Hewitt; A. B. Hill; D. Horan; G. Jóhannesson; D. Kocevski; C. Kouveliotou; M. Kuss; S. Larsson; J. Li; L. Li; F. Longo; F. Loparco; M. N. Lovellette; P. Lubrano; M. Mayer; M. N. Mazziotta; J. E. McEnery; P. F. Michelson; T. Mizuno; M. E. Monzani; A. Morselli; S. Murgia; R. Nemmen; E. Nuss; M. Ohno; T. Ohsugi; N. Omodei; M. Orienti; E. Orlando; D. Paneque; J. S. Perkins; M. Pesce-Rollins; F. Piron; G. Pivato; T. A. Porter; J. L. Racusin; S. Rainò; R. Rando; M. Razzano; A. Reimer; O. Reimer; M. Schaal; A. Schulz; C. Sgrò; E. J. Siskind; F. Spada; G. Spandre; P. Spinelli; H. Takahashi; J. B. Thayer; L. Tibaldo; M. Tinivella; D. F. Torres; G. Tosti; E. Troja; G. Vianello; A. Von Kienlin; M. Werner; K. S. Wood

doi:10.3847/0004-637X/822/2/68

FERMI LAT STACKING ANALYSIS of SWIFT LOCALIZED GRBs

M. Ackermann
, M. Ajello
, B. Anderson
, W. B. Atwood
, M. Axelsson
, L. Baldini
, G. Barbiellini
, D. Bastieri
, R. Bellazzini
, P. N. Bhat
, E. Bissaldi
, R. Bonino
, E. Bottacini
, T. J. Brandt
, J. Bregeon
, P. Bruel
, R. Buehler
, S. Buson
, G. A. Caliandro
, R. A. Cameron

M. Caragiulo, P. A. Caraveo, C. Cecchi, E. Charles, A. Chekhtman, J. Chiang, G. Chiaro, S. Ciprini, R. Claus, J. Cohen-Tanugi, J. Conrad, S. Cutini, F. D'Ammando, A. De Angelis, F. De Palma, R. Desiante, L. Di Venere, P. S. Drell, C. Favuzzi, W. B. Focke, A. Franckowiak, S. Funk, P. Fusco, F. Gargano, D. Gasparrini, N. Gehrels, N. Giglietto, F. Giordano, M. Giroletti, G. Godfrey, I. A. Grenier, J. E. Grove, S. Guiriec, J. W. Hewitt, A. B. Hill, D. Horan, G. Jóhannesson, D. Kocevski, C. Kouveliotou, M. Kuss, S. Larsson, J. Li, L. Li, F. Longo, F. Loparco, M. N. Lovellette, P. Lubrano, M. Mayer, M. N. Mazziotta, J. E. McEnery, P. F. Michelson, T. Mizuno, M. E. Monzani, A. Morselli, S. Murgia, R. Nemmen, E. Nuss, M. Ohno, T. Ohsugi, N. Omodei, M. Orienti, E. Orlando, D. Paneque, J. S. Perkins, M. Pesce-Rollins, F. Piron, G. Pivato, T. A. Porter, J. L. Racusin, S. Rainò, R. Rando, M. Razzano, A. Reimer, O. Reimer, M. Schaal, A. Schulz, C. Sgrò, E. J. Siskind, F. Spada, G. Spandre, P. Spinelli, H. Takahashi, J. B. Thayer, L. Tibaldo, M. Tinivella, D. F. Torres, G. Tosti, E. Troja, G. Vianello, A. Von Kienlin, M. Werner, K. S. Wood

c/o DESY
Clemson University
Max Planck Institut für Extraterrestrische Physik
University of California at Santa Cruz
KTH Royal Institute of Technology
Tokyo Metropolitan University
University of Pisa
INFN Sezione di Trieste
University of Trieste
INFN
University of Padova
Istituto Nazionale di Fisica Nucleare, Sezione di Pisa
Center for Space Plasma and Aeronomic Research
INFN Sezione di Bari
INFN Sezione di Torino
University of Turin
Kavli Institute for Particle Astrophysics and Cosmology
NASA Goddard Space Flight Center
Laboratoire Univers et Particules de Montpellier
Consorzio Interuniversitario per la Fisica Spaziale (CIFS)
INAF Istituto di Astrofisica Spaziale e Fisica Cosmica, Milan
INFN Sezione di Perugia
University of Perugia
George Mason University
Science and Research Directorate
Osservatorio Astronomico di Roma
Stockholm University
Oskar Klein Centre
Royal Swedish Academy of Sciences
INAF Istituto di Radioastronomia
University of Bologna
and Physics University of Udine
Università Telematica Pegaso
Politecnico di Bari
Friedrich-Alexander University (FAU) Erlangen-Nürnberg and Universitätsklinikum Erlangen
Universite Paris-Saclay
Naval Research Laboratory
Biochemical and Environmental Engineering
University of Southampton
University of Iceland
George Washington University
University of Sheffield
University of Maryland
Hiroshima University
Sezione di Roma
Long Beach VA and University of California
University of São Paulo
Max-Planck-Institut für Physik
Medical University of Innsbruck
NYCB Real-Time Computing Inc.
Pompeu Fabra University (UPF)

Research output: Contribution to journal › Article › peer-review

Abstract

We perform a comprehensive stacking analysis of data collected by the Fermi Large Area Telescope (LAT) of γ-ray bursts (GRBs) localized by the Swift spacecraft, which were not detected by the LAT but which fell within the instrument's field of view at the time of trigger. We examine a total of 79 GRBs by comparing the observed counts over a range of time intervals to that expected from designated background orbits, as well as by using a joint likelihood technique to model the expected distribution of stacked counts. We find strong evidence for subthreshold emission at MeV to GeV energies using both techniques. This observed excess is detected during intervals that include and exceed the durations typically characterizing the prompt emission observed at keV energies and lasts at least 2700 s after the co-aligned burst trigger. By utilizing a novel cumulative likelihood analysis, we find that although a burst's prompt γ-ray and afterglow X-ray flux both correlate with the strength of the subthreshold emission, the X-ray afterglow flux measured by Swift's X-ray Telescope at 11 hr post trigger correlates far more significantly. Overall, the extended nature of the subthreshold emission and its connection to the burst's afterglow brightness lend further support to the external forward shock origin of the late-time emission detected by the LAT. These results suggest that the extended high-energy emission observed by the LAT may be a relatively common feature but remains undetected in a majority of bursts owing to instrumental threshold effects.

Original language	English
Article number	68
Journal	Astrophysical Journal
Volume	822
Issue number	2
DOIs	https://doi.org/10.3847/0004-637X/822/2/68
Publication status	Published - 10 May 2016

Keywords

X-rays: bursts
gamma rays: general
gamma-ray burst: general
methods: data analysis

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10.3847/0004-637X/822/2/68

Cite this

Ackermann, M., Ajello, M., Anderson, B., Atwood, W. B., Axelsson, M., Baldini, L., Barbiellini, G., Bastieri, D., Bellazzini, R., Bhat, P. N., Bissaldi, E., Bonino, R., Bottacini, E., Brandt, T. J., Bregeon, J., Bruel, P., Buehler, R., Buson, S., Caliandro, G. A., ... Wood, K. S. (2016). FERMI LAT STACKING ANALYSIS of SWIFT LOCALIZED GRBs. Astrophysical Journal, 822(2), Article 68. https://doi.org/10.3847/0004-637X/822/2/68

@article{083957a1c3aa4d95ba89100177f64572,

title = "FERMI LAT STACKING ANALYSIS of SWIFT LOCALIZED GRBs",

abstract = "We perform a comprehensive stacking analysis of data collected by the Fermi Large Area Telescope (LAT) of γ-ray bursts (GRBs) localized by the Swift spacecraft, which were not detected by the LAT but which fell within the instrument's field of view at the time of trigger. We examine a total of 79 GRBs by comparing the observed counts over a range of time intervals to that expected from designated background orbits, as well as by using a joint likelihood technique to model the expected distribution of stacked counts. We find strong evidence for subthreshold emission at MeV to GeV energies using both techniques. This observed excess is detected during intervals that include and exceed the durations typically characterizing the prompt emission observed at keV energies and lasts at least 2700 s after the co-aligned burst trigger. By utilizing a novel cumulative likelihood analysis, we find that although a burst's prompt γ-ray and afterglow X-ray flux both correlate with the strength of the subthreshold emission, the X-ray afterglow flux measured by Swift's X-ray Telescope at 11 hr post trigger correlates far more significantly. Overall, the extended nature of the subthreshold emission and its connection to the burst's afterglow brightness lend further support to the external forward shock origin of the late-time emission detected by the LAT. These results suggest that the extended high-energy emission observed by the LAT may be a relatively common feature but remains undetected in a majority of bursts owing to instrumental threshold effects.",

keywords = "X-rays: bursts, gamma rays: general, gamma-ray burst: general, methods: data analysis",

author = "M. Ackermann and M. Ajello and B. Anderson and Atwood, \{W. B.\} and M. Axelsson and L. Baldini and G. Barbiellini and D. Bastieri and R. Bellazzini and Bhat, \{P. N.\} and E. Bissaldi and R. Bonino and E. Bottacini and Brandt, \{T. J.\} and J. Bregeon and P. Bruel and R. Buehler and S. Buson and Caliandro, \{G. A.\} and Cameron, \{R. A.\} and M. Caragiulo and Caraveo, \{P. A.\} and C. Cecchi and E. Charles and A. Chekhtman and J. Chiang and G. Chiaro and S. Ciprini and R. Claus and J. Cohen-Tanugi and J. Conrad and S. Cutini and F. D'Ammando and \{De Angelis\}, A. and \{De Palma\}, F. and R. Desiante and \{Di Venere\}, L. and Drell, \{P. S.\} and C. Favuzzi and Focke, \{W. B.\} and A. Franckowiak and S. Funk and P. Fusco and F. Gargano and D. Gasparrini and N. Gehrels and N. Giglietto and F. Giordano and M. Giroletti and G. Godfrey and Grenier, \{I. A.\} and Grove, \{J. E.\} and S. Guiriec and Hewitt, \{J. W.\} and Hill, \{A. B.\} and D. Horan and G. J{\'o}hannesson and D. Kocevski and C. Kouveliotou and M. Kuss and S. Larsson and J. Li and L. Li and F. Longo and F. Loparco and Lovellette, \{M. N.\} and P. Lubrano and M. Mayer and Mazziotta, \{M. N.\} and McEnery, \{J. E.\} and Michelson, \{P. F.\} and T. Mizuno and Monzani, \{M. E.\} and A. Morselli and S. Murgia and R. Nemmen and E. Nuss and M. Ohno and T. Ohsugi and N. Omodei and M. Orienti and E. Orlando and D. Paneque and Perkins, \{J. S.\} and M. Pesce-Rollins and F. Piron and G. Pivato and Porter, \{T. A.\} and Racusin, \{J. L.\} and S. Rain{\`o} and R. Rando and M. Razzano and A. Reimer and O. Reimer and M. Schaal and A. Schulz and C. Sgr{\`o} and Siskind, \{E. J.\} and F. Spada and G. Spandre and P. Spinelli and H. Takahashi and Thayer, \{J. B.\} and L. Tibaldo and M. Tinivella and Torres, \{D. F.\} and G. Tosti and E. Troja and G. Vianello and Kienlin, \{A. Von\} and M. Werner and Wood, \{K. S.\}",

year = "2016",

month = may,

day = "10",

doi = "10.3847/0004-637X/822/2/68",

language = "English",

volume = "822",

journal = "Astrophysical Journal",

issn = "0004-637X",

number = "2",

}

Ackermann, M, Ajello, M, Anderson, B, Atwood, WB, Axelsson, M, Baldini, L, Barbiellini, G, Bastieri, D, Bellazzini, R, Bhat, PN, Bissaldi, E, Bonino, R, Bottacini, E, Brandt, TJ, Bregeon, J, Bruel, P, Buehler, R, Buson, S, Caliandro, GA, Cameron, RA, Caragiulo, M, Caraveo, PA, Cecchi, C, Charles, E, Chekhtman, A, Chiang, J, Chiaro, G, Ciprini, S, Claus, R, Cohen-Tanugi, J, Conrad, J, Cutini, S, D'Ammando, F, De Angelis, A, De Palma, F, Desiante, R, Di Venere, L, Drell, PS, Favuzzi, C, Focke, WB, Franckowiak, A, Funk, S, Fusco, P, Gargano, F, Gasparrini, D, Gehrels, N, Giglietto, N, Giordano, F, Giroletti, M, Godfrey, G, Grenier, IA, Grove, JE, Guiriec, S, Hewitt, JW, Hill, AB, Horan, D, Jóhannesson, G, Kocevski, D, Kouveliotou, C, Kuss, M, Larsson, S, Li, J, Li, L, Longo, F, Loparco, F, Lovellette, MN, Lubrano, P, Mayer, M, Mazziotta, MN, McEnery, JE, Michelson, PF, Mizuno, T, Monzani, ME, Morselli, A, Murgia, S, Nemmen, R, Nuss, E, Ohno, M, Ohsugi, T, Omodei, N, Orienti, M, Orlando, E, Paneque, D, Perkins, JS, Pesce-Rollins, M, Piron, F, Pivato, G, Porter, TA, Racusin, JL, Rainò, S, Rando, R, Razzano, M, Reimer, A, Reimer, O, Schaal, M, Schulz, A, Sgrò, C, Siskind, EJ, Spada, F, Spandre, G, Spinelli, P, Takahashi, H, Thayer, JB, Tibaldo, L, Tinivella, M, Torres, DF, Tosti, G, Troja, E, Vianello, G, Kienlin, AV, Werner, M & Wood, KS 2016, 'FERMI LAT STACKING ANALYSIS of SWIFT LOCALIZED GRBs', Astrophysical Journal, vol. 822, no. 2, 68. https://doi.org/10.3847/0004-637X/822/2/68

TY - JOUR

T1 - FERMI LAT STACKING ANALYSIS of SWIFT LOCALIZED GRBs

AU - Ackermann, M.

AU - Ajello, M.

AU - Anderson, B.

AU - Atwood, W. B.

AU - Axelsson, M.

AU - Baldini, L.

AU - Barbiellini, G.

AU - Bastieri, D.

AU - Bellazzini, R.

AU - Bhat, P. N.

AU - Bissaldi, E.

AU - Bonino, R.

AU - Bottacini, E.

AU - Brandt, T. J.

AU - Bregeon, J.

AU - Bruel, P.

AU - Buehler, R.

AU - Buson, S.

AU - Caliandro, G. A.

AU - Cameron, R. A.

AU - Caragiulo, M.

AU - Caraveo, P. A.

AU - Cecchi, C.

AU - Charles, E.

AU - Chekhtman, A.

AU - Chiang, J.

AU - Chiaro, G.

AU - Ciprini, S.

AU - Claus, R.

AU - Cohen-Tanugi, J.

AU - Conrad, J.

AU - Cutini, S.

AU - D'Ammando, F.

AU - De Angelis, A.

AU - De Palma, F.

AU - Desiante, R.

AU - Di Venere, L.

AU - Drell, P. S.

AU - Favuzzi, C.

AU - Focke, W. B.

AU - Franckowiak, A.

AU - Funk, S.

AU - Fusco, P.

AU - Gargano, F.

AU - Gasparrini, D.

AU - Gehrels, N.

AU - Giglietto, N.

AU - Giordano, F.

AU - Giroletti, M.

AU - Godfrey, G.

AU - Grenier, I. A.

AU - Grove, J. E.

AU - Guiriec, S.

AU - Hewitt, J. W.

AU - Hill, A. B.

AU - Horan, D.

AU - Jóhannesson, G.

AU - Kocevski, D.

AU - Kouveliotou, C.

AU - Kuss, M.

AU - Larsson, S.

AU - Li, J.

AU - Li, L.

AU - Longo, F.

AU - Loparco, F.

AU - Lovellette, M. N.

AU - Lubrano, P.

AU - Mayer, M.

AU - Mazziotta, M. N.

AU - McEnery, J. E.

AU - Michelson, P. F.

AU - Mizuno, T.

AU - Monzani, M. E.

AU - Morselli, A.

AU - Murgia, S.

AU - Nemmen, R.

AU - Nuss, E.

AU - Ohno, M.

AU - Ohsugi, T.

AU - Omodei, N.

AU - Orienti, M.

AU - Orlando, E.

AU - Paneque, D.

AU - Perkins, J. S.

AU - Pesce-Rollins, M.

AU - Piron, F.

AU - Pivato, G.

AU - Porter, T. A.

AU - Racusin, J. L.

AU - Rainò, S.

AU - Rando, R.

AU - Razzano, M.

AU - Reimer, A.

AU - Reimer, O.

AU - Schaal, M.

AU - Schulz, A.

AU - Sgrò, C.

AU - Siskind, E. J.

AU - Spada, F.

AU - Spandre, G.

AU - Spinelli, P.

AU - Takahashi, H.

AU - Thayer, J. B.

AU - Tibaldo, L.

AU - Tinivella, M.

AU - Torres, D. F.

AU - Tosti, G.

AU - Troja, E.

AU - Vianello, G.

AU - Kienlin, A. Von

AU - Werner, M.

AU - Wood, K. S.

PY - 2016/5/10

Y1 - 2016/5/10

N2 - We perform a comprehensive stacking analysis of data collected by the Fermi Large Area Telescope (LAT) of γ-ray bursts (GRBs) localized by the Swift spacecraft, which were not detected by the LAT but which fell within the instrument's field of view at the time of trigger. We examine a total of 79 GRBs by comparing the observed counts over a range of time intervals to that expected from designated background orbits, as well as by using a joint likelihood technique to model the expected distribution of stacked counts. We find strong evidence for subthreshold emission at MeV to GeV energies using both techniques. This observed excess is detected during intervals that include and exceed the durations typically characterizing the prompt emission observed at keV energies and lasts at least 2700 s after the co-aligned burst trigger. By utilizing a novel cumulative likelihood analysis, we find that although a burst's prompt γ-ray and afterglow X-ray flux both correlate with the strength of the subthreshold emission, the X-ray afterglow flux measured by Swift's X-ray Telescope at 11 hr post trigger correlates far more significantly. Overall, the extended nature of the subthreshold emission and its connection to the burst's afterglow brightness lend further support to the external forward shock origin of the late-time emission detected by the LAT. These results suggest that the extended high-energy emission observed by the LAT may be a relatively common feature but remains undetected in a majority of bursts owing to instrumental threshold effects.

AB - We perform a comprehensive stacking analysis of data collected by the Fermi Large Area Telescope (LAT) of γ-ray bursts (GRBs) localized by the Swift spacecraft, which were not detected by the LAT but which fell within the instrument's field of view at the time of trigger. We examine a total of 79 GRBs by comparing the observed counts over a range of time intervals to that expected from designated background orbits, as well as by using a joint likelihood technique to model the expected distribution of stacked counts. We find strong evidence for subthreshold emission at MeV to GeV energies using both techniques. This observed excess is detected during intervals that include and exceed the durations typically characterizing the prompt emission observed at keV energies and lasts at least 2700 s after the co-aligned burst trigger. By utilizing a novel cumulative likelihood analysis, we find that although a burst's prompt γ-ray and afterglow X-ray flux both correlate with the strength of the subthreshold emission, the X-ray afterglow flux measured by Swift's X-ray Telescope at 11 hr post trigger correlates far more significantly. Overall, the extended nature of the subthreshold emission and its connection to the burst's afterglow brightness lend further support to the external forward shock origin of the late-time emission detected by the LAT. These results suggest that the extended high-energy emission observed by the LAT may be a relatively common feature but remains undetected in a majority of bursts owing to instrumental threshold effects.

KW - X-rays: bursts

KW - gamma rays: general

KW - gamma-ray burst: general

KW - methods: data analysis

U2 - 10.3847/0004-637X/822/2/68

DO - 10.3847/0004-637X/822/2/68

M3 - Article

AN - SCOPUS:84969543427

SN - 0004-637X

VL - 822

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

M1 - 68

ER -

FERMI LAT STACKING ANALYSIS of SWIFT LOCALIZED GRBs

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Keywords

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