TY - JOUR
T1 - X-ray hiccups from Sagittarius A* observed by XMM-Newton
T2 - The second brightest flare and three moderate flares caught in half a day
AU - Porquet, D.
AU - Grosso, N.
AU - Predehl, P.
AU - Hasinger, G.
AU - Yusef-Zadeh, F.
AU - Aschenbach, B.
AU - Trap, G.
AU - Melia, F.
AU - Warwick, R. S.
AU - Goldwurm, A.
AU - Bélanger, G.
AU - Tanaka, Y.
AU - Genzel, R.
AU - Dodds-Eden, K.
AU - Sakano, M.
AU - Ferrando, P.
PY - 2008/9
Y1 - 2008/9
N2 - Context. Our Galaxy hosts at its dynamical center SgrA*, the closest supermassive black hole. Surprisingly, its luminosity is several orders of magnitude lower than the Eddington luminosity. However, the recent observations of occasional rapid X-ray flares from SgrA* provide constraints on the accretion and radiation mechanisms at work close to its event horizon.Aims. Our aim is to investigate the flaring activity of SgrA* and to constrain the physical properties of the X-ray flares.Methods. In Spring 2007, we observed SgrA* with XMM-Newton with a total exposure of ~230 ks. We have performed timing and spectral analysis of the new X-ray flares detected during this campaign. To study the range of flare spectral properties, in a consistent manner, we have also reprocessed, using the same analysis procedure and the latest calibration, archived XMM-Newton data of previously reported rapid flares. The dust scattering was taken into account during the spectral fitting. We also used Chandra archived observations of the quiescent state of SgrA* for comparison.Results. On April 4, 2007, we observed for the first time within a time interval of roughly half a day, an enhanced incidence rate of X-ray flaring, with a bright flare followed by three flares of more moderate amplitude. The former event represents the second brightest X-ray flare from Sgr A* on record with a peak amplitude of about 100 above the quiescent luminosity. This new bright flare exhibits similar light-curve shape (nearly symmetrical), duration (~3 ks) and spectral characteristics to the very bright flare observed in October 3, 2002 by XMM-Newton. The measured spectral parameters of the new bright flare, assuming an absorbed power law model taken into account dust scattering effect, are = cm and = 2.3 0.3 calculated at the 90% confidence level. The spectral parameter fits of the sum of the three following moderate flares, while lower ( = cm and ), are compatible within the error bars with those of the bright flares. The column density found, for a power-law model taking into account the dust scattering, during the flares is at least two times higher than the value expected from the (dust) visual extinction toward SgrA* ( ~ 25 mag), i.e., 4.5 10 cm. However, our fitting of the SgrA* quiescent spectra obtained with Chandra, for a power-law model taking into account the dust scattering, shows that an excess of column density is already present during the non-flaring phase.Conclusions. The two brightest X-ray flares observed so far from SgrA* exhibited similar soft spectra.
AB - Context. Our Galaxy hosts at its dynamical center SgrA*, the closest supermassive black hole. Surprisingly, its luminosity is several orders of magnitude lower than the Eddington luminosity. However, the recent observations of occasional rapid X-ray flares from SgrA* provide constraints on the accretion and radiation mechanisms at work close to its event horizon.Aims. Our aim is to investigate the flaring activity of SgrA* and to constrain the physical properties of the X-ray flares.Methods. In Spring 2007, we observed SgrA* with XMM-Newton with a total exposure of ~230 ks. We have performed timing and spectral analysis of the new X-ray flares detected during this campaign. To study the range of flare spectral properties, in a consistent manner, we have also reprocessed, using the same analysis procedure and the latest calibration, archived XMM-Newton data of previously reported rapid flares. The dust scattering was taken into account during the spectral fitting. We also used Chandra archived observations of the quiescent state of SgrA* for comparison.Results. On April 4, 2007, we observed for the first time within a time interval of roughly half a day, an enhanced incidence rate of X-ray flaring, with a bright flare followed by three flares of more moderate amplitude. The former event represents the second brightest X-ray flare from Sgr A* on record with a peak amplitude of about 100 above the quiescent luminosity. This new bright flare exhibits similar light-curve shape (nearly symmetrical), duration (~3 ks) and spectral characteristics to the very bright flare observed in October 3, 2002 by XMM-Newton. The measured spectral parameters of the new bright flare, assuming an absorbed power law model taken into account dust scattering effect, are = cm and = 2.3 0.3 calculated at the 90% confidence level. The spectral parameter fits of the sum of the three following moderate flares, while lower ( = cm and ), are compatible within the error bars with those of the bright flares. The column density found, for a power-law model taking into account the dust scattering, during the flares is at least two times higher than the value expected from the (dust) visual extinction toward SgrA* ( ~ 25 mag), i.e., 4.5 10 cm. However, our fitting of the SgrA* quiescent spectra obtained with Chandra, for a power-law model taking into account the dust scattering, shows that an excess of column density is already present during the non-flaring phase.Conclusions. The two brightest X-ray flares observed so far from SgrA* exhibited similar soft spectra.
KW - Galaxy: center
KW - Radiation mechanisms: general
KW - X-rays: general
KW - X-rays: individuals: SgrA
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U2 - 10.1051/0004-6361:200809986
DO - 10.1051/0004-6361:200809986
M3 - Article
AN - SCOPUS:50549083139
SN - 0004-6361
VL - 488
SP - 549
EP - 557
JO - Astronomy and Astrophysics
JF - Astronomy and Astrophysics
IS - 2
ER -