Swift and optical observations of GRB 050401

Massimiliano De Pasquale; Andy P. Beardmore; S. D. Barthelmy; P. Boyd; D. N. Burrows; R. Fink; N. Gehrels; S. Kobayashi; K. O. Mason; R. McNought; J. A. Nousek; K. L. Page; D. M. Palmer; B. A. Peterson; P. A. Price; J. Rich; P. Roming; S. R. Rosen; T. Sakamoto; B. P. Schmidt; J. Tueller; A. A. Wells; S. Zane; B. Zhang; H. Ziaeepour

doi:10.1111/j.1365-2966.2005.09787.x

Swift and optical observations of GRB 050401

Massimiliano De Pasquale, Andy P. Beardmore, S. D. Barthelmy, P. Boyd, D. N. Burrows, R. Fink, N. Gehrels, S. Kobayashi, K. O. Mason, R. McNought, J. A. Nousek, K. L. Page, D. M. Palmer, B. A. Peterson, P. A. Price, J. Rich, P. Roming, S. R. Rosen, T. Sakamoto, B. P. SchmidtJ. Tueller, A. A. Wells, S. Zane, B. Zhang, H. Ziaeepour

Astronomy & Astrophysics

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Abstract

We present the results of the analysis of γ-ray and X-ray data of GRB 050401 taken with the Swift satellite, together with a series of ground-based follow-up optical observations. The Swift X-ray light curve shows a clear break at about 4900 s after the γ-ray burst (GRB). The decay indices before and after the break are consistent with a scenario of continuous injection of radiation from the 'central engine' of the GRB to the fireball. Alternatively, this behaviour could result if ejecta are released with a range of Lorentz factors, with the slower shells catching up the faster at the afterglow shock position. The two scenarios are observationally indistinguishable. The GRB 050401 afterglow is quite bright in the X-ray band, but weak in the optical, with an optical to X-ray flux ratio similar to those of 'dark bursts'. We detect a significant amount of absorption in the X-ray spectrum, with N_H = (1.7 ± 0.2) × 10²²cm^-2 at a redshift of z = 2.9, which is typical of a dense circumburst medium. Such high column density implies an unrealistic optical extinction of 30 mag if we adopt a Galactic extinction law, which would not be consistent with the optical detection of the afterglow. This suggests that the extinction law is different from the Galactic one.

Original language	English (US)
Pages (from-to)	1031-1038
Number of pages	8
Journal	Monthly Notices of the Royal Astronomical Society
Volume	365
Issue number	3
DOIs	https://doi.org/10.1111/j.1365-2966.2005.09787.x
State	Published - Jan 2006

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.1111/j.1365-2966.2005.09787.x

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De Pasquale, M., Beardmore, A. P., Barthelmy, S. D., Boyd, P., Burrows, D. N., Fink, R., Gehrels, N., Kobayashi, S., Mason, K. O., McNought, R., Nousek, J. A., Page, K. L., Palmer, D. M., Peterson, B. A., Price, P. A., Rich, J., Roming, P., Rosen, S. R., Sakamoto, T., ... Ziaeepour, H. (2006). Swift and optical observations of GRB 050401. Monthly Notices of the Royal Astronomical Society, 365(3), 1031-1038. https://doi.org/10.1111/j.1365-2966.2005.09787.x

@article{9f7092854a8c473fa8215e53339e69a1,

title = "Swift and optical observations of GRB 050401",

abstract = "We present the results of the analysis of γ-ray and X-ray data of GRB 050401 taken with the Swift satellite, together with a series of ground-based follow-up optical observations. The Swift X-ray light curve shows a clear break at about 4900 s after the γ-ray burst (GRB). The decay indices before and after the break are consistent with a scenario of continuous injection of radiation from the 'central engine' of the GRB to the fireball. Alternatively, this behaviour could result if ejecta are released with a range of Lorentz factors, with the slower shells catching up the faster at the afterglow shock position. The two scenarios are observationally indistinguishable. The GRB 050401 afterglow is quite bright in the X-ray band, but weak in the optical, with an optical to X-ray flux ratio similar to those of 'dark bursts'. We detect a significant amount of absorption in the X-ray spectrum, with NH = (1.7 ± 0.2) × 1022cm-2 at a redshift of z = 2.9, which is typical of a dense circumburst medium. Such high column density implies an unrealistic optical extinction of 30 mag if we adopt a Galactic extinction law, which would not be consistent with the optical detection of the afterglow. This suggests that the extinction law is different from the Galactic one.",

author = "{De Pasquale}, Massimiliano and Beardmore, {Andy P.} and Barthelmy, {S. D.} and P. Boyd and Burrows, {D. N.} and R. Fink and N. Gehrels and S. Kobayashi and Mason, {K. O.} and R. McNought and Nousek, {J. A.} and Page, {K. L.} and Palmer, {D. M.} and Peterson, {B. A.} and Price, {P. A.} and J. Rich and P. Roming and Rosen, {S. R.} and T. Sakamoto and Schmidt, {B. P.} and J. Tueller and Wells, {A. A.} and S. Zane and B. Zhang and H. Ziaeepour",

year = "2006",

month = jan,

doi = "10.1111/j.1365-2966.2005.09787.x",

language = "English (US)",

volume = "365",

pages = "1031--1038",

journal = "Monthly Notices of the Royal Astronomical Society",

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De Pasquale, M, Beardmore, AP, Barthelmy, SD, Boyd, P, Burrows, DN, Fink, R, Gehrels, N, Kobayashi, S, Mason, KO, McNought, R, Nousek, JA, Page, KL, Palmer, DM, Peterson, BA, Price, PA, Rich, J, Roming, P, Rosen, SR, Sakamoto, T, Schmidt, BP, Tueller, J, Wells, AA, Zane, S, Zhang, B & Ziaeepour, H 2006, 'Swift and optical observations of GRB 050401', Monthly Notices of the Royal Astronomical Society, vol. 365, no. 3, pp. 1031-1038. https://doi.org/10.1111/j.1365-2966.2005.09787.x

TY - JOUR

T1 - Swift and optical observations of GRB 050401

AU - De Pasquale, Massimiliano

AU - Beardmore, Andy P.

AU - Barthelmy, S. D.

AU - Boyd, P.

AU - Burrows, D. N.

AU - Fink, R.

AU - Gehrels, N.

AU - Kobayashi, S.

AU - Mason, K. O.

AU - McNought, R.

AU - Nousek, J. A.

AU - Page, K. L.

AU - Palmer, D. M.

AU - Peterson, B. A.

AU - Price, P. A.

AU - Rich, J.

AU - Roming, P.

AU - Rosen, S. R.

AU - Sakamoto, T.

AU - Schmidt, B. P.

AU - Tueller, J.

AU - Wells, A. A.

AU - Zane, S.

AU - Zhang, B.

AU - Ziaeepour, H.

PY - 2006/1

Y1 - 2006/1

N2 - We present the results of the analysis of γ-ray and X-ray data of GRB 050401 taken with the Swift satellite, together with a series of ground-based follow-up optical observations. The Swift X-ray light curve shows a clear break at about 4900 s after the γ-ray burst (GRB). The decay indices before and after the break are consistent with a scenario of continuous injection of radiation from the 'central engine' of the GRB to the fireball. Alternatively, this behaviour could result if ejecta are released with a range of Lorentz factors, with the slower shells catching up the faster at the afterglow shock position. The two scenarios are observationally indistinguishable. The GRB 050401 afterglow is quite bright in the X-ray band, but weak in the optical, with an optical to X-ray flux ratio similar to those of 'dark bursts'. We detect a significant amount of absorption in the X-ray spectrum, with NH = (1.7 ± 0.2) × 1022cm-2 at a redshift of z = 2.9, which is typical of a dense circumburst medium. Such high column density implies an unrealistic optical extinction of 30 mag if we adopt a Galactic extinction law, which would not be consistent with the optical detection of the afterglow. This suggests that the extinction law is different from the Galactic one.

AB - We present the results of the analysis of γ-ray and X-ray data of GRB 050401 taken with the Swift satellite, together with a series of ground-based follow-up optical observations. The Swift X-ray light curve shows a clear break at about 4900 s after the γ-ray burst (GRB). The decay indices before and after the break are consistent with a scenario of continuous injection of radiation from the 'central engine' of the GRB to the fireball. Alternatively, this behaviour could result if ejecta are released with a range of Lorentz factors, with the slower shells catching up the faster at the afterglow shock position. The two scenarios are observationally indistinguishable. The GRB 050401 afterglow is quite bright in the X-ray band, but weak in the optical, with an optical to X-ray flux ratio similar to those of 'dark bursts'. We detect a significant amount of absorption in the X-ray spectrum, with NH = (1.7 ± 0.2) × 1022cm-2 at a redshift of z = 2.9, which is typical of a dense circumburst medium. Such high column density implies an unrealistic optical extinction of 30 mag if we adopt a Galactic extinction law, which would not be consistent with the optical detection of the afterglow. This suggests that the extinction law is different from the Galactic one.

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JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

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ER -

Swift and optical observations of GRB 050401

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