A Swift study of long-term changes in the X-ray flaring properties of Sagittarius A

A. AndrCrossed D Sign©s; J. Van Den Eijnden; N. Degenaar; P. A. Evans; K. Chatterjee; M. Reynolds; J. M. Miller; J. Kennea; R. Wijnands; S. Markoff; D. Altamirano; C. O. Heinke; A. Bahramian; G. Ponti; D. Haggard

doi:10.1093/mnras/stab3407

A Swift study of long-term changes in the X-ray flaring properties of Sagittarius A

A. AndrCrossed D Sign©s, J. Van Den Eijnden, N. Degenaar, P. A. Evans, K. Chatterjee, M. Reynolds, J. M. Miller, J. Kennea, R. Wijnands, S. Markoff, D. Altamirano, C. O. Heinke, A. Bahramian, G. Ponti, D. Haggard

Astronomy & Astrophysics

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Abstract

The radiative counterpart of the supermassive black hole at the Galactic Centre, Sagittarius A∗, displays flaring emission in the X-ray band atop a steady, quiescent level. Flares are also observed in the near-infrared band. The physical process producing the flares is not fully understood and it is unclear if the flaring rate varies, although some recent works suggest it has reached unprecedented variability in recent years. Using over a decade of regular X-ray monitoring of Neil Gehrels Swift Observatory, we studied the variations in count rate of Sgr A∗ on time-scales of years. We decomposed the X-ray emission into quiescent and flaring emission, modelled as a constant and power-law process, respectively. We found that the complete, multiyear data set cannot be described by a stationary distribution of flare fluxes, while individual years follow this model better. In three of the ten studied years, the data is consistent with a purely Poissonian quiescent distribution, while for 5 yr, only an upper limit of the flare flux distribution parameter could be determined. We find that these possible changes cannot be explained fully by the different number of observations per year. Combined, these results are instead consistent with a changing flaring rate of Sgr A∗, appearing more active between 2006-2007 and 2017-2019, than between 2008-2012. Finally, we discuss this result in the context of flare models and the passing of gaseous objects, and discuss the extra statistical steps taken, for instance, to deal with the background in the Swift observations.

Original language	English (US)
Pages (from-to)	2851-2863
Number of pages	13
Journal	Monthly Notices of the Royal Astronomical Society
Volume	510
Issue number	2
DOIs	https://doi.org/10.1093/mnras/stab3407
State	Published - Feb 2022

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.1093/mnras/stab3407

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AndrCrossed D Sign©s, A., Van Den Eijnden, J., Degenaar, N., Evans, P. A., Chatterjee, K., Reynolds, M., Miller, J. M., Kennea, J., Wijnands, R., Markoff, S., Altamirano, D., Heinke, C. O., Bahramian, A., Ponti, G., & Haggard, D. (2022). A Swift study of long-term changes in the X-ray flaring properties of Sagittarius A. Monthly Notices of the Royal Astronomical Society, 510(2), 2851-2863. https://doi.org/10.1093/mnras/stab3407

@article{b8786fc86eb4443ebccf8c0779540926,

title = "A Swift study of long-term changes in the X-ray flaring properties of Sagittarius A",

abstract = "The radiative counterpart of the supermassive black hole at the Galactic Centre, Sagittarius A∗, displays flaring emission in the X-ray band atop a steady, quiescent level. Flares are also observed in the near-infrared band. The physical process producing the flares is not fully understood and it is unclear if the flaring rate varies, although some recent works suggest it has reached unprecedented variability in recent years. Using over a decade of regular X-ray monitoring of Neil Gehrels Swift Observatory, we studied the variations in count rate of Sgr A∗ on time-scales of years. We decomposed the X-ray emission into quiescent and flaring emission, modelled as a constant and power-law process, respectively. We found that the complete, multiyear data set cannot be described by a stationary distribution of flare fluxes, while individual years follow this model better. In three of the ten studied years, the data is consistent with a purely Poissonian quiescent distribution, while for 5 yr, only an upper limit of the flare flux distribution parameter could be determined. We find that these possible changes cannot be explained fully by the different number of observations per year. Combined, these results are instead consistent with a changing flaring rate of Sgr A∗, appearing more active between 2006-2007 and 2017-2019, than between 2008-2012. Finally, we discuss this result in the context of flare models and the passing of gaseous objects, and discuss the extra statistical steps taken, for instance, to deal with the background in the Swift observations.",

author = "{AndrCrossed D Sign{\textcopyright}s}, A. and {Van Den Eijnden}, J. and N. Degenaar and Evans, {P. A.} and K. Chatterjee and M. Reynolds and Miller, {J. M.} and J. Kennea and R. Wijnands and S. Markoff and D. Altamirano and Heinke, {C. O.} and A. Bahramian and G. Ponti and D. Haggard",

note = "Publisher Copyright: {\textcopyright} 2022 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.",

year = "2022",

month = feb,

doi = "10.1093/mnras/stab3407",

language = "English (US)",

volume = "510",

pages = "2851--2863",

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

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publisher = "Oxford University Press",

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AndrCrossed D Sign©s, A, Van Den Eijnden, J, Degenaar, N, Evans, PA, Chatterjee, K, Reynolds, M, Miller, JM, Kennea, J, Wijnands, R, Markoff, S, Altamirano, D, Heinke, CO, Bahramian, A, Ponti, G & Haggard, D 2022, 'A Swift study of long-term changes in the X-ray flaring properties of Sagittarius A', Monthly Notices of the Royal Astronomical Society, vol. 510, no. 2, pp. 2851-2863. https://doi.org/10.1093/mnras/stab3407

TY - JOUR

T1 - A Swift study of long-term changes in the X-ray flaring properties of Sagittarius A

AU - AndrCrossed D Sign©s, A.

AU - Van Den Eijnden, J.

AU - Degenaar, N.

AU - Evans, P. A.

AU - Chatterjee, K.

AU - Reynolds, M.

AU - Miller, J. M.

AU - Kennea, J.

AU - Wijnands, R.

AU - Markoff, S.

AU - Altamirano, D.

AU - Heinke, C. O.

AU - Bahramian, A.

AU - Ponti, G.

AU - Haggard, D.

PY - 2022/2

Y1 - 2022/2

N2 - The radiative counterpart of the supermassive black hole at the Galactic Centre, Sagittarius A∗, displays flaring emission in the X-ray band atop a steady, quiescent level. Flares are also observed in the near-infrared band. The physical process producing the flares is not fully understood and it is unclear if the flaring rate varies, although some recent works suggest it has reached unprecedented variability in recent years. Using over a decade of regular X-ray monitoring of Neil Gehrels Swift Observatory, we studied the variations in count rate of Sgr A∗ on time-scales of years. We decomposed the X-ray emission into quiescent and flaring emission, modelled as a constant and power-law process, respectively. We found that the complete, multiyear data set cannot be described by a stationary distribution of flare fluxes, while individual years follow this model better. In three of the ten studied years, the data is consistent with a purely Poissonian quiescent distribution, while for 5 yr, only an upper limit of the flare flux distribution parameter could be determined. We find that these possible changes cannot be explained fully by the different number of observations per year. Combined, these results are instead consistent with a changing flaring rate of Sgr A∗, appearing more active between 2006-2007 and 2017-2019, than between 2008-2012. Finally, we discuss this result in the context of flare models and the passing of gaseous objects, and discuss the extra statistical steps taken, for instance, to deal with the background in the Swift observations.

AB - The radiative counterpart of the supermassive black hole at the Galactic Centre, Sagittarius A∗, displays flaring emission in the X-ray band atop a steady, quiescent level. Flares are also observed in the near-infrared band. The physical process producing the flares is not fully understood and it is unclear if the flaring rate varies, although some recent works suggest it has reached unprecedented variability in recent years. Using over a decade of regular X-ray monitoring of Neil Gehrels Swift Observatory, we studied the variations in count rate of Sgr A∗ on time-scales of years. We decomposed the X-ray emission into quiescent and flaring emission, modelled as a constant and power-law process, respectively. We found that the complete, multiyear data set cannot be described by a stationary distribution of flare fluxes, while individual years follow this model better. In three of the ten studied years, the data is consistent with a purely Poissonian quiescent distribution, while for 5 yr, only an upper limit of the flare flux distribution parameter could be determined. We find that these possible changes cannot be explained fully by the different number of observations per year. Combined, these results are instead consistent with a changing flaring rate of Sgr A∗, appearing more active between 2006-2007 and 2017-2019, than between 2008-2012. Finally, we discuss this result in the context of flare models and the passing of gaseous objects, and discuss the extra statistical steps taken, for instance, to deal with the background in the Swift observations.

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DO - 10.1093/mnras/stab3407

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SN - 0035-8711

VL - 510

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EP - 2863

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 2

ER -

A Swift study of long-term changes in the X-ray flaring properties of Sagittarius A

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