The X-Ray Outburst of the Galactic Center Magnetar over Six Years of Chandra Observations

N. Rea; F. Coti Zelati; D. Viganò; A. Papitto; F. Baganoff; A. Borghese; S. Campana; P. Esposito; D. Haggard; G. L. Israel; S. Mereghetti; R. P. Mignani; R. Perna; J. A. Pons; G. Ponti; L. Stella; D. F. Torres; R. Turolla; S. Zane

doi:10.3847/1538-4357/ab8387

The X-Ray Outburst of the Galactic Center Magnetar over Six Years of Chandra Observations

N. Rea
, F. Coti Zelati
, D. Viganò
, A. Papitto
, F. Baganoff
, A. Borghese
, S. Campana
, P. Esposito
, D. Haggard
, G. L. Israel
, S. Mereghetti
, R. P. Mignani
, R. Perna
, J. A. Pons
, G. Ponti
, L. Stella
, D. F. Torres
, R. Turolla
, S. Zane

Physics and Astronomy

CSIC
Institute of Space Studies of Catalonia
Osservatorio Astronomico Roma
Massachusetts Institute of Technology
Osservatorio Astronomico di Brera
University of Pavia
Istituto di Astrofisica Spaziale e Fisica Cosmica di Bologna
McGill University
University of Zielona Gora
University of Alicante
Max Planck Institute for Extraterrestrial Physics
ICREA
University of Padua
University College London

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

14 Scopus citations

Abstract

The magnetar SGR J1745-2900, discovered at a distance of parsecs from the Milky Way central black hole, Sagittarius A^∗, represents the closest pulsar to a supermassive black hole ever detected. Furthermore, its intriguing radio emission has been used to study the environment of the black hole, as well as to derive a precise position and proper motion for this object. The discovery of SGR J1745-2900 has led to interesting debates about the number, age, and nature of pulsars expected in the Galactic center region. In this work, we present extensive X-ray monitoring of the outburst of SGR J1745-2900 using the Chandra X-ray Observatory, the only instrument with the spatial resolution to distinguish the magnetar from the supermassive black hole (2.″4 angular distance). It was monitored from its outburst onset in 2013 April until 2019 August, collecting more than 50 Chandra observations for a total of more than 2.3 Ms of data. Soon after the outburst onset, the magnetar emission settled onto a purely thermal emission state that cooled from a temperature of about 0.9-0.6 keV over 6 yr. The pulsar timing properties showed at least two changes in the period derivative, increasing by a factor of about 4 during the outburst decay. We find that the long-term properties of this outburst challenge current models for the magnetar outbursts.

Original language	English
Article number	159
Journal	Astrophysical Journal
Volume	894
Issue number	2
DOIs	https://doi.org/10.3847/1538-4357/ab8387
State	Published - May 10 2020

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Rea, N., Coti Zelati, F., Viganò, D., Papitto, A., Baganoff, F., Borghese, A., Campana, S., Esposito, P., Haggard, D., Israel, G. L., Mereghetti, S., Mignani, R. P., Perna, R., Pons, J. A., Ponti, G., Stella, L., Torres, D. F., Turolla, R., & Zane, S. (2020). The X-Ray Outburst of the Galactic Center Magnetar over Six Years of Chandra Observations. Astrophysical Journal, 894(2), Article 159. https://doi.org/10.3847/1538-4357/ab8387

@article{e20f9de2a0354bd3ae3dfe3071635811,

title = "The X-Ray Outburst of the Galactic Center Magnetar over Six Years of Chandra Observations",

abstract = "The magnetar SGR J1745-2900, discovered at a distance of parsecs from the Milky Way central black hole, Sagittarius A∗, represents the closest pulsar to a supermassive black hole ever detected. Furthermore, its intriguing radio emission has been used to study the environment of the black hole, as well as to derive a precise position and proper motion for this object. The discovery of SGR J1745-2900 has led to interesting debates about the number, age, and nature of pulsars expected in the Galactic center region. In this work, we present extensive X-ray monitoring of the outburst of SGR J1745-2900 using the Chandra X-ray Observatory, the only instrument with the spatial resolution to distinguish the magnetar from the supermassive black hole (2.″4 angular distance). It was monitored from its outburst onset in 2013 April until 2019 August, collecting more than 50 Chandra observations for a total of more than 2.3 Ms of data. Soon after the outburst onset, the magnetar emission settled onto a purely thermal emission state that cooled from a temperature of about 0.9-0.6 keV over 6 yr. The pulsar timing properties showed at least two changes in the period derivative, increasing by a factor of about 4 during the outburst decay. We find that the long-term properties of this outburst challenge current models for the magnetar outbursts.",

author = "N. Rea and \{Coti Zelati\}, F. and D. Vigan{\`o} and A. Papitto and F. Baganoff and A. Borghese and S. Campana and P. Esposito and D. Haggard and Israel, \{G. L.\} and S. Mereghetti and Mignani, \{R. P.\} and R. Perna and Pons, \{J. A.\} and G. Ponti and L. Stella and Torres, \{D. F.\} and R. Turolla and S. Zane",

year = "2020",

month = may,

day = "10",

doi = "10.3847/1538-4357/ab8387",

language = "English",

volume = "894",

journal = "Astrophysical Journal",

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Rea, N, Coti Zelati, F, Viganò, D, Papitto, A, Baganoff, F, Borghese, A, Campana, S, Esposito, P, Haggard, D, Israel, GL, Mereghetti, S, Mignani, RP, Perna, R, Pons, JA, Ponti, G, Stella, L, Torres, DF, Turolla, R & Zane, S 2020, 'The X-Ray Outburst of the Galactic Center Magnetar over Six Years of Chandra Observations', Astrophysical Journal, vol. 894, no. 2, 159. https://doi.org/10.3847/1538-4357/ab8387

TY - JOUR

T1 - The X-Ray Outburst of the Galactic Center Magnetar over Six Years of Chandra Observations

AU - Rea, N.

AU - Coti Zelati, F.

AU - Viganò, D.

AU - Papitto, A.

AU - Baganoff, F.

AU - Borghese, A.

AU - Campana, S.

AU - Esposito, P.

AU - Haggard, D.

AU - Israel, G. L.

AU - Mereghetti, S.

AU - Mignani, R. P.

AU - Perna, R.

AU - Pons, J. A.

AU - Ponti, G.

AU - Stella, L.

AU - Torres, D. F.

AU - Turolla, R.

AU - Zane, S.

PY - 2020/5/10

Y1 - 2020/5/10

N2 - The magnetar SGR J1745-2900, discovered at a distance of parsecs from the Milky Way central black hole, Sagittarius A∗, represents the closest pulsar to a supermassive black hole ever detected. Furthermore, its intriguing radio emission has been used to study the environment of the black hole, as well as to derive a precise position and proper motion for this object. The discovery of SGR J1745-2900 has led to interesting debates about the number, age, and nature of pulsars expected in the Galactic center region. In this work, we present extensive X-ray monitoring of the outburst of SGR J1745-2900 using the Chandra X-ray Observatory, the only instrument with the spatial resolution to distinguish the magnetar from the supermassive black hole (2.″4 angular distance). It was monitored from its outburst onset in 2013 April until 2019 August, collecting more than 50 Chandra observations for a total of more than 2.3 Ms of data. Soon after the outburst onset, the magnetar emission settled onto a purely thermal emission state that cooled from a temperature of about 0.9-0.6 keV over 6 yr. The pulsar timing properties showed at least two changes in the period derivative, increasing by a factor of about 4 during the outburst decay. We find that the long-term properties of this outburst challenge current models for the magnetar outbursts.

AB - The magnetar SGR J1745-2900, discovered at a distance of parsecs from the Milky Way central black hole, Sagittarius A∗, represents the closest pulsar to a supermassive black hole ever detected. Furthermore, its intriguing radio emission has been used to study the environment of the black hole, as well as to derive a precise position and proper motion for this object. The discovery of SGR J1745-2900 has led to interesting debates about the number, age, and nature of pulsars expected in the Galactic center region. In this work, we present extensive X-ray monitoring of the outburst of SGR J1745-2900 using the Chandra X-ray Observatory, the only instrument with the spatial resolution to distinguish the magnetar from the supermassive black hole (2.″4 angular distance). It was monitored from its outburst onset in 2013 April until 2019 August, collecting more than 50 Chandra observations for a total of more than 2.3 Ms of data. Soon after the outburst onset, the magnetar emission settled onto a purely thermal emission state that cooled from a temperature of about 0.9-0.6 keV over 6 yr. The pulsar timing properties showed at least two changes in the period derivative, increasing by a factor of about 4 during the outburst decay. We find that the long-term properties of this outburst challenge current models for the magnetar outbursts.

UR - https://www.scopus.com/pages/publications/85085327829

U2 - 10.3847/1538-4357/ab8387

DO - 10.3847/1538-4357/ab8387

M3 - Article

AN - SCOPUS:85085327829

SN - 0004-637X

VL - 894

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

M1 - 159

ER -

The X-Ray Outburst of the Galactic Center Magnetar over Six Years of Chandra Observations

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