2012
DOI: 10.1051/0004-6361/201117779
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Millimeter to X-ray flares from Sagittarius A*

Abstract: Context. We report on new simultaneous observations and modeling of the millimeter, near-infrared, and X-ray flare emission of the source Sagittarius A* (SgrA*) associated with the super-massive (4 × 10 6 M ) black hole at the Galactic center. Aims. We study the applicability of the adiabatic synchrotron source expansion model and study physical processes giving rise to the variable emission of SgrA* from the radio to the X-ray domain. Methods. Our observations were carried out on 18 May 2009 using the NACO ad… Show more

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Cited by 94 publications
(152 citation statements)
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References 90 publications
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“…Baganoff et al (2001) report the first discovery of rapid X-ray flaring from SgrA* using the Chandra observatory in the (0.5-7 keV)-band implying that this part of the X-ray emission is due to accretion of gas onto a SMBH. Eckart et al (2012b) report on new simultaneous observations and modeling of the millimeter, near-infrared, and X-ray flare emission of the source SgrA*. The authors study how and if the concept of the adiabatic synchrotron source expansion can be applied to the variable emission of SgrA*.…”
Section: Spectrummentioning
confidence: 99%
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“…Baganoff et al (2001) report the first discovery of rapid X-ray flaring from SgrA* using the Chandra observatory in the (0.5-7 keV)-band implying that this part of the X-ray emission is due to accretion of gas onto a SMBH. Eckart et al (2012b) report on new simultaneous observations and modeling of the millimeter, near-infrared, and X-ray flare emission of the source SgrA*. The authors study how and if the concept of the adiabatic synchrotron source expansion can be applied to the variable emission of SgrA*.…”
Section: Spectrummentioning
confidence: 99%
“…Observations of X-ray and NIR flares from Sgr A* (Mossoux et al, 2015;Neilsen et al, 2015b;Barrière et al, 2014;Eckart et al, 2012c;Porquet et al, 2008;Eckart et al, 2006a;Ghez et al, 2004;Eckart et al, 2003;Genzel et al, 2003;Baganoff et al, 2003Baganoff et al, , 2001 suggest that the emission comes from structures smaller than about ten Schwarzschild radii of a ∼ 4 × 10 6 M ⊙ million solar mass black hole. This is more than two orders of magnitude more compact than the radius of a neutrino ball with a neutrino mass discussed in this context.…”
Section: Fermion Ballmentioning
confidence: 99%
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“…The intensity of Sgr A* shows spontaneous flux density outbursts at radio to X-ray frequencies, commonly referred to as flares (Mauerhan et al 2005;Marrone et al 2006;Yusef-Zadeh et al 2008;Eckart et al 2008aEckart et al ,b,c, 2009Eckart et al , 2012Lu et al 2011;Miyazaki et al 2012). These intensity irregularities appear on timescales ranging from 1-2 h (main flares) down to 7-10 min (sub-flares) (Eckart et al 2006a) with stronger activity at shorter wavelengths (Baganoff et al 2001;Genzel et al 2003;Ghez 2004;Eckart et al 2006b,c).…”
Section: Introductionmentioning
confidence: 99%
“…While the flux variability of Sgr A* has been studied by many authors (e.g., Zhao et al 2003;Mauerhan et al 2005;Marrone et al 2006Marrone et al , 2008Doeleman et al 2008;Eckart et al 2008aEckart et al ,b,c, 2009Eckart et al , 2012Yusef-Zadeh et al 2008Li et al 2009;Kunneriath et al 2010;Sabha et al 2010;Zamaninasab et al 2010;Fish et al 2011;Miyazaki et al 2012), size measurements during flares have not been performed as frequently (e.g., Rogers et al 1994;Krichbaum et al 1998;Lo et al 1998;Doeleman et al 2001Doeleman et al , 2008Shen et al 2005Shen et al , 2006Huang et al 2007;Lu et al 2011;Bower et al 2014). Recently, Bower et al (2014) performed triggered multi-frequency VLBI observations of Sgr A* at NIR, X-ray, and 43 GHz that revealed an elliptical intrinsic source size of 35.4 × 12.6 R s with an rms variation of ∼5% and maximum peak-to-peak change of 15%.…”
Section: Introductionmentioning
confidence: 99%