GRB 050410 and GRB 050412

Are they really dark gamma-ray bursts?

T. Mineo, V. Mangano, S. Covino, G. Cusumano, V. La Parola, E. Troja, P. Roming, David Nelson Burrows, S. Campana, M. Capalbi, G. Chincarini, N. Gehrels, P. Giommi, J. E. Hill, F. Marshall, A. Moretti, P. O'Brien, M. Page, M. Perri, P. Romano & 3 others Boris Sbarufatti, G. Sato, G. Tagliaferri

Research output: Contribution to journalArticle

5 Citations (Scopus)

Abstract

Aims. We present a detailed analysis of the prompt and afterglow emission of ORB 050410 and GRB 050412 detected by Swift for which no optical counterpart was observed. Methods. We analysed data from the prompt emission detected by the Swift BAT and from the early phase of the afterglow obtained by the Swift narrow field instrument XRT. Results. The 15-150 keV energy distribution of the GRB 050410 prompt emission shows a peak energy at 53-21+40 keV. The XRT light curve of this GRB decays as a power law with a slope of α = 1.06 ± 0.04. The spectrum is well reproduced by an absorbed power law with a spectral index Γx = 2.4 ± 0.4 and a low energy absorption NH = -2+3 × 10 21 cm-2 which is higher than the Galactic value. The 15-150 keV prompt emission in GRB 050412 is modelled with a hard (Γ = 0.7 ± 0.2) power law. The XRT light curve follows a broken power law with the first slope αl = 0.7 ± 0.4, the break time T break = 254-41+79 s and the second slope α2 = 2.8-0.8+0.5. The spectrum is fitted by a power law with spectral index Γx = 1.3 ± 0.2 which is absorbed at low energies by the Galactic column. Conclusions. The GRB 050410 afterglow light curve reveals the expected characteristics of the third component of the canonical Swift light curve. Conversely, a complex phenomenology was detected in the GRB 050412 because of the presence of the very early break. The light curve in this case can be interpreted as being the last peak of the prompt emission. The two bursts present tight upper limits for the optical emission, however, neither of them can be clearly classified as dark. For GRB 050410, the suppression of the optical afterglow could be attributed to a low density interstellar medium surrounding the burst. For GRB 050412, the evaluation of the darkness is more difficult due to the ambiguity in the extrapolation of the X-ray afterglow light curve.

Original languageEnglish (US)
Pages (from-to)663-669
Number of pages7
JournalAstronomy and Astrophysics
Volume469
Issue number2
DOIs
StatePublished - Jul 1 2007

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gamma ray bursts
light curve
afterglows
power law
slopes
energy
bursts
darkness
energy absorption
phenomenology
ambiguity
light emission
extrapolation
energy distribution
retarding
evaluation
decay
x rays

All Science Journal Classification (ASJC) codes

  • Astronomy and Astrophysics
  • Space and Planetary Science

Cite this

Mineo, T., Mangano, V., Covino, S., Cusumano, G., La Parola, V., Troja, E., ... Tagliaferri, G. (2007). GRB 050410 and GRB 050412: Are they really dark gamma-ray bursts? Astronomy and Astrophysics, 469(2), 663-669. https://doi.org/10.1051/0004-6361:20066594
Mineo, T. ; Mangano, V. ; Covino, S. ; Cusumano, G. ; La Parola, V. ; Troja, E. ; Roming, P. ; Burrows, David Nelson ; Campana, S. ; Capalbi, M. ; Chincarini, G. ; Gehrels, N. ; Giommi, P. ; Hill, J. E. ; Marshall, F. ; Moretti, A. ; O'Brien, P. ; Page, M. ; Perri, M. ; Romano, P. ; Sbarufatti, Boris ; Sato, G. ; Tagliaferri, G. / GRB 050410 and GRB 050412 : Are they really dark gamma-ray bursts?. In: Astronomy and Astrophysics. 2007 ; Vol. 469, No. 2. pp. 663-669.
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abstract = "Aims. We present a detailed analysis of the prompt and afterglow emission of ORB 050410 and GRB 050412 detected by Swift for which no optical counterpart was observed. Methods. We analysed data from the prompt emission detected by the Swift BAT and from the early phase of the afterglow obtained by the Swift narrow field instrument XRT. Results. The 15-150 keV energy distribution of the GRB 050410 prompt emission shows a peak energy at 53-21+40 keV. The XRT light curve of this GRB decays as a power law with a slope of α = 1.06 ± 0.04. The spectrum is well reproduced by an absorbed power law with a spectral index Γx = 2.4 ± 0.4 and a low energy absorption NH = -2+3 × 10 21 cm-2 which is higher than the Galactic value. The 15-150 keV prompt emission in GRB 050412 is modelled with a hard (Γ = 0.7 ± 0.2) power law. The XRT light curve follows a broken power law with the first slope αl = 0.7 ± 0.4, the break time T break = 254-41+79 s and the second slope α2 = 2.8-0.8+0.5. The spectrum is fitted by a power law with spectral index Γx = 1.3 ± 0.2 which is absorbed at low energies by the Galactic column. Conclusions. The GRB 050410 afterglow light curve reveals the expected characteristics of the third component of the canonical Swift light curve. Conversely, a complex phenomenology was detected in the GRB 050412 because of the presence of the very early break. The light curve in this case can be interpreted as being the last peak of the prompt emission. The two bursts present tight upper limits for the optical emission, however, neither of them can be clearly classified as dark. For GRB 050410, the suppression of the optical afterglow could be attributed to a low density interstellar medium surrounding the burst. For GRB 050412, the evaluation of the darkness is more difficult due to the ambiguity in the extrapolation of the X-ray afterglow light curve.",
author = "T. Mineo and V. Mangano and S. Covino and G. Cusumano and {La Parola}, V. and E. Troja and P. Roming and Burrows, {David Nelson} and S. Campana and M. Capalbi and G. Chincarini and N. Gehrels and P. Giommi and Hill, {J. E.} and F. Marshall and A. Moretti and P. O'Brien and M. Page and M. Perri and P. Romano and Boris Sbarufatti and G. Sato and G. Tagliaferri",
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Mineo, T, Mangano, V, Covino, S, Cusumano, G, La Parola, V, Troja, E, Roming, P, Burrows, DN, Campana, S, Capalbi, M, Chincarini, G, Gehrels, N, Giommi, P, Hill, JE, Marshall, F, Moretti, A, O'Brien, P, Page, M, Perri, M, Romano, P, Sbarufatti, B, Sato, G & Tagliaferri, G 2007, 'GRB 050410 and GRB 050412: Are they really dark gamma-ray bursts?', Astronomy and Astrophysics, vol. 469, no. 2, pp. 663-669. https://doi.org/10.1051/0004-6361:20066594

GRB 050410 and GRB 050412 : Are they really dark gamma-ray bursts? / Mineo, T.; Mangano, V.; Covino, S.; Cusumano, G.; La Parola, V.; Troja, E.; Roming, P.; Burrows, David Nelson; Campana, S.; Capalbi, M.; Chincarini, G.; Gehrels, N.; Giommi, P.; Hill, J. E.; Marshall, F.; Moretti, A.; O'Brien, P.; Page, M.; Perri, M.; Romano, P.; Sbarufatti, Boris; Sato, G.; Tagliaferri, G.

In: Astronomy and Astrophysics, Vol. 469, No. 2, 01.07.2007, p. 663-669.

Research output: Contribution to journalArticle

TY - JOUR

T1 - GRB 050410 and GRB 050412

T2 - Are they really dark gamma-ray bursts?

AU - Mineo, T.

AU - Mangano, V.

AU - Covino, S.

AU - Cusumano, G.

AU - La Parola, V.

AU - Troja, E.

AU - Roming, P.

AU - Burrows, David Nelson

AU - Campana, S.

AU - Capalbi, M.

AU - Chincarini, G.

AU - Gehrels, N.

AU - Giommi, P.

AU - Hill, J. E.

AU - Marshall, F.

AU - Moretti, A.

AU - O'Brien, P.

AU - Page, M.

AU - Perri, M.

AU - Romano, P.

AU - Sbarufatti, Boris

AU - Sato, G.

AU - Tagliaferri, G.

PY - 2007/7/1

Y1 - 2007/7/1

N2 - Aims. We present a detailed analysis of the prompt and afterglow emission of ORB 050410 and GRB 050412 detected by Swift for which no optical counterpart was observed. Methods. We analysed data from the prompt emission detected by the Swift BAT and from the early phase of the afterglow obtained by the Swift narrow field instrument XRT. Results. The 15-150 keV energy distribution of the GRB 050410 prompt emission shows a peak energy at 53-21+40 keV. The XRT light curve of this GRB decays as a power law with a slope of α = 1.06 ± 0.04. The spectrum is well reproduced by an absorbed power law with a spectral index Γx = 2.4 ± 0.4 and a low energy absorption NH = -2+3 × 10 21 cm-2 which is higher than the Galactic value. The 15-150 keV prompt emission in GRB 050412 is modelled with a hard (Γ = 0.7 ± 0.2) power law. The XRT light curve follows a broken power law with the first slope αl = 0.7 ± 0.4, the break time T break = 254-41+79 s and the second slope α2 = 2.8-0.8+0.5. The spectrum is fitted by a power law with spectral index Γx = 1.3 ± 0.2 which is absorbed at low energies by the Galactic column. Conclusions. The GRB 050410 afterglow light curve reveals the expected characteristics of the third component of the canonical Swift light curve. Conversely, a complex phenomenology was detected in the GRB 050412 because of the presence of the very early break. The light curve in this case can be interpreted as being the last peak of the prompt emission. The two bursts present tight upper limits for the optical emission, however, neither of them can be clearly classified as dark. For GRB 050410, the suppression of the optical afterglow could be attributed to a low density interstellar medium surrounding the burst. For GRB 050412, the evaluation of the darkness is more difficult due to the ambiguity in the extrapolation of the X-ray afterglow light curve.

AB - Aims. We present a detailed analysis of the prompt and afterglow emission of ORB 050410 and GRB 050412 detected by Swift for which no optical counterpart was observed. Methods. We analysed data from the prompt emission detected by the Swift BAT and from the early phase of the afterglow obtained by the Swift narrow field instrument XRT. Results. The 15-150 keV energy distribution of the GRB 050410 prompt emission shows a peak energy at 53-21+40 keV. The XRT light curve of this GRB decays as a power law with a slope of α = 1.06 ± 0.04. The spectrum is well reproduced by an absorbed power law with a spectral index Γx = 2.4 ± 0.4 and a low energy absorption NH = -2+3 × 10 21 cm-2 which is higher than the Galactic value. The 15-150 keV prompt emission in GRB 050412 is modelled with a hard (Γ = 0.7 ± 0.2) power law. The XRT light curve follows a broken power law with the first slope αl = 0.7 ± 0.4, the break time T break = 254-41+79 s and the second slope α2 = 2.8-0.8+0.5. The spectrum is fitted by a power law with spectral index Γx = 1.3 ± 0.2 which is absorbed at low energies by the Galactic column. Conclusions. The GRB 050410 afterglow light curve reveals the expected characteristics of the third component of the canonical Swift light curve. Conversely, a complex phenomenology was detected in the GRB 050412 because of the presence of the very early break. The light curve in this case can be interpreted as being the last peak of the prompt emission. The two bursts present tight upper limits for the optical emission, however, neither of them can be clearly classified as dark. For GRB 050410, the suppression of the optical afterglow could be attributed to a low density interstellar medium surrounding the burst. For GRB 050412, the evaluation of the darkness is more difficult due to the ambiguity in the extrapolation of the X-ray afterglow light curve.

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Mineo T, Mangano V, Covino S, Cusumano G, La Parola V, Troja E et al. GRB 050410 and GRB 050412: Are they really dark gamma-ray bursts? Astronomy and Astrophysics. 2007 Jul 1;469(2):663-669. https://doi.org/10.1051/0004-6361:20066594