The first outburst of the new magnetar candidate SGR 0501+4516

N. Rea; G. L. Israel; R. Turolla; P. Esposito; S. Mereghetti; D. Götz; S. Zane; A. Tiengo; K. Hurley; M. Feroci; M. Still; V. Yershov; C. Winkler; R. Perna; F. Bernardini; P. Ubertini; L. Stella; S. Campana; M. Van Der Klis; P. Woods

doi:10.1111/j.1365-2966.2009.14920.x

The first outburst of the new magnetar candidate SGR 0501+4516

N. Rea, G. L. Israel, R. Turolla, P. Esposito, S. Mereghetti, D. Götz, S. Zane, A. Tiengo, K. Hurley, M. Feroci, M. Still, V. Yershov, C. Winkler, R. Perna, F. Bernardini, P. Ubertini, L. Stella, S. Campana, M. Van Der Klis, P. Woods

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Abstract

We report here on the outburst onset and evolution of the new soft gamma-ray repeater SGR 0501+4516. We monitored the new SGR with XMM-Newton starting on 2008 August 23, 1 day after the source became burst active, and continuing with four more observations in the following month, with the last one on 2008 September 30. Combining the data with the Swift X-ray telescope (Swift-XRT) and Suzaku data, we modelled the outburst decay over a 3-month period, and we found that the source flux decreased exponentially with a time-scale of t_c = 23.8 d. In the first XMM-Newton observation, a large number of short X-ray bursts were observed, the rate of which decayed drastically in the following observations. We found large changes in the spectral and timing behaviour of the source during the first month of the outburst decay, with softening emission as the flux decayed, and the non-thermal soft X-ray spectral component fading faster than the thermal one. Almost simultaneously to our second and fourth XMM-Newton observations (on 2008 August 29 and September 2), we observed the source in the hard X-ray range with INTEGRAL, which clearly detected the source up to ∼100 keV in the first pointing, while giving only upper limits during the second pointing, discovering a variable hard X-ray component fading in less than 10 days after the bursting activation. We performed a phase-coherent X-ray timing analysis over about 160 days starting with the burst activation and found evidence of a strong second derivative period component []. Thanks to the phase connection, we were able to study the phase-resolved spectral evolution of SGR 0501+4516 in great detail. We also report on the ROSAT quiescent source data, taken back in 1992 when the source exhibits a flux ∼80 times lower than that measured during the outburst, and a rather soft, thermal spectrum.

Original language	English (US)
Pages (from-to)	2419-2432
Number of pages	14
Journal	Monthly Notices of the Royal Astronomical Society
Volume	396
Issue number	4
DOIs	https://doi.org/10.1111/j.1365-2966.2009.14920.x
State	Published - Jul 2009

Keywords

Pulsars: general

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1111/j.1365-2966.2009.14920.x

Cite this

Rea, N., Israel, G. L., Turolla, R., Esposito, P., Mereghetti, S., Götz, D., Zane, S., Tiengo, A., Hurley, K., Feroci, M., Still, M., Yershov, V., Winkler, C., Perna, R., Bernardini, F., Ubertini, P., Stella, L., Campana, S., Van Der Klis, M., & Woods, P. (2009). The first outburst of the new magnetar candidate SGR 0501+4516. Monthly Notices of the Royal Astronomical Society, 396(4), 2419-2432. https://doi.org/10.1111/j.1365-2966.2009.14920.x

Rea, N, Israel, GL, Turolla, R, Esposito, P, Mereghetti, S, Götz, D, Zane, S, Tiengo, A, Hurley, K, Feroci, M, Still, M, Yershov, V, Winkler, C, Perna, R, Bernardini, F, Ubertini, P, Stella, L, Campana, S, Van Der Klis, M & Woods, P 2009, 'The first outburst of the new magnetar candidate SGR 0501+4516', Monthly Notices of the Royal Astronomical Society, vol. 396, no. 4, pp. 2419-2432. https://doi.org/10.1111/j.1365-2966.2009.14920.x

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title = "The first outburst of the new magnetar candidate SGR 0501+4516",

abstract = "We report here on the outburst onset and evolution of the new soft gamma-ray repeater SGR 0501+4516. We monitored the new SGR with XMM-Newton starting on 2008 August 23, 1 day after the source became burst active, and continuing with four more observations in the following month, with the last one on 2008 September 30. Combining the data with the Swift X-ray telescope (Swift-XRT) and Suzaku data, we modelled the outburst decay over a 3-month period, and we found that the source flux decreased exponentially with a time-scale of tc = 23.8 d. In the first XMM-Newton observation, a large number of short X-ray bursts were observed, the rate of which decayed drastically in the following observations. We found large changes in the spectral and timing behaviour of the source during the first month of the outburst decay, with softening emission as the flux decayed, and the non-thermal soft X-ray spectral component fading faster than the thermal one. Almost simultaneously to our second and fourth XMM-Newton observations (on 2008 August 29 and September 2), we observed the source in the hard X-ray range with INTEGRAL, which clearly detected the source up to ∼100 keV in the first pointing, while giving only upper limits during the second pointing, discovering a variable hard X-ray component fading in less than 10 days after the bursting activation. We performed a phase-coherent X-ray timing analysis over about 160 days starting with the burst activation and found evidence of a strong second derivative period component []. Thanks to the phase connection, we were able to study the phase-resolved spectral evolution of SGR 0501+4516 in great detail. We also report on the ROSAT quiescent source data, taken back in 1992 when the source exhibits a flux ∼80 times lower than that measured during the outburst, and a rather soft, thermal spectrum.",

keywords = "Pulsars: general",

author = "N. Rea and Israel, {G. L.} and R. Turolla and P. Esposito and S. Mereghetti and D. G{\"o}tz and S. Zane and A. Tiengo and K. Hurley and M. Feroci and M. Still and V. Yershov and C. Winkler and R. Perna and F. Bernardini and P. Ubertini and L. Stella and S. Campana and {Van Der Klis}, M. and P. Woods",

year = "2009",

month = jul,

doi = "10.1111/j.1365-2966.2009.14920.x",

language = "English (US)",

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T1 - The first outburst of the new magnetar candidate SGR 0501+4516

AU - Rea, N.

AU - Israel, G. L.

AU - Turolla, R.

AU - Esposito, P.

AU - Mereghetti, S.

AU - Götz, D.

AU - Zane, S.

AU - Tiengo, A.

AU - Hurley, K.

AU - Feroci, M.

AU - Still, M.

AU - Yershov, V.

AU - Winkler, C.

AU - Perna, R.

AU - Bernardini, F.

AU - Ubertini, P.

AU - Stella, L.

AU - Campana, S.

AU - Van Der Klis, M.

AU - Woods, P.

PY - 2009/7

Y1 - 2009/7

N2 - We report here on the outburst onset and evolution of the new soft gamma-ray repeater SGR 0501+4516. We monitored the new SGR with XMM-Newton starting on 2008 August 23, 1 day after the source became burst active, and continuing with four more observations in the following month, with the last one on 2008 September 30. Combining the data with the Swift X-ray telescope (Swift-XRT) and Suzaku data, we modelled the outburst decay over a 3-month period, and we found that the source flux decreased exponentially with a time-scale of tc = 23.8 d. In the first XMM-Newton observation, a large number of short X-ray bursts were observed, the rate of which decayed drastically in the following observations. We found large changes in the spectral and timing behaviour of the source during the first month of the outburst decay, with softening emission as the flux decayed, and the non-thermal soft X-ray spectral component fading faster than the thermal one. Almost simultaneously to our second and fourth XMM-Newton observations (on 2008 August 29 and September 2), we observed the source in the hard X-ray range with INTEGRAL, which clearly detected the source up to ∼100 keV in the first pointing, while giving only upper limits during the second pointing, discovering a variable hard X-ray component fading in less than 10 days after the bursting activation. We performed a phase-coherent X-ray timing analysis over about 160 days starting with the burst activation and found evidence of a strong second derivative period component []. Thanks to the phase connection, we were able to study the phase-resolved spectral evolution of SGR 0501+4516 in great detail. We also report on the ROSAT quiescent source data, taken back in 1992 when the source exhibits a flux ∼80 times lower than that measured during the outburst, and a rather soft, thermal spectrum.

AB - We report here on the outburst onset and evolution of the new soft gamma-ray repeater SGR 0501+4516. We monitored the new SGR with XMM-Newton starting on 2008 August 23, 1 day after the source became burst active, and continuing with four more observations in the following month, with the last one on 2008 September 30. Combining the data with the Swift X-ray telescope (Swift-XRT) and Suzaku data, we modelled the outburst decay over a 3-month period, and we found that the source flux decreased exponentially with a time-scale of tc = 23.8 d. In the first XMM-Newton observation, a large number of short X-ray bursts were observed, the rate of which decayed drastically in the following observations. We found large changes in the spectral and timing behaviour of the source during the first month of the outburst decay, with softening emission as the flux decayed, and the non-thermal soft X-ray spectral component fading faster than the thermal one. Almost simultaneously to our second and fourth XMM-Newton observations (on 2008 August 29 and September 2), we observed the source in the hard X-ray range with INTEGRAL, which clearly detected the source up to ∼100 keV in the first pointing, while giving only upper limits during the second pointing, discovering a variable hard X-ray component fading in less than 10 days after the bursting activation. We performed a phase-coherent X-ray timing analysis over about 160 days starting with the burst activation and found evidence of a strong second derivative period component []. Thanks to the phase connection, we were able to study the phase-resolved spectral evolution of SGR 0501+4516 in great detail. We also report on the ROSAT quiescent source data, taken back in 1992 when the source exhibits a flux ∼80 times lower than that measured during the outburst, and a rather soft, thermal spectrum.

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The first outburst of the new magnetar candidate SGR 0501+4516

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Keywords

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