SGR J1550–5418 BURSTS DETECTED WITH THE<i>FERMI</i>GAMMA-RAY BURST MONITOR DURING ITS MOST PROLIFIC ACTIVITY

Horst, A. J. van der; Kouveliotou, C.; Gorgone, Nicholas; Kaneko, Yuki; Baring, Matthew G.; Guiriec, S.; Göǧüş, E.; Granot, Jonathan; Watts, Anna L.; Lin, L.; Bhat, P. N.; Bissaldi, E.; Chaplin, V.; Finger, Mark H.; Gehrels, N.; Gibby, M. H.; Giles, M. M.; Goldstein, A.; Gruber, D.; Harding, A. K.; Kaper, L.; Kienlin, A. von; Klis, M. van der; McBreen, S.; McEnery, J. E.; Meegan, C.; Pačiesas, W. S.; Pe’er, Asaf; Preece, R.; Ramírez-Ruiz, E.; Rau, A.; Wachter, Stefanie; Wilson-Hodge, C.; Woods, Peter; Wijers, R. A. M. J.

doi:10.1088/0004-637x/749/2/122

Cited by 85 publications

(142 citation statements)

References 48 publications

Supporting

Mentioning

119

Contrasting

Order By: Relevance

“…They are sometimes found in young supernova remnants and are characterized by recurrent emission of short duration, ∼0.1 s (Kouveliotou 1995), bursts of soft gamma-rays/hard X-rays with spectra described by optically thin thermal bremsstrahlung (OTTB) at kT ∼ 20-40 keV (Goǧus et al 2001). Recent studies at lower energies, <15 keV, have found that an OTTB model is no longer accurately fitted to the spectra and there is a rollover which can be best fitted with two blackbodies or alternatively a cutoff power law (Feroci et al 2004;Olive et al 2004;Nakagawa et al 2007;Israel et al 2008;Lin et al 2011;van der Horst et al 2012). There is evidence that these bursts are the result of starquakes that occur when the NS crust fractures due to a buildup of stress associated with the evolution of the strong magnetic field, greater than 10 14 G (Thompson & Duncan 1995).…”

Section: Introductionmentioning

confidence: 99%

BURST FLUENCE DISTRIBUTIONS OF SOFT GAMMA REPEATERS 1806–20 AND 1900+14 IN THEROSSI X-RAY TIMING EXPLORERPCA ERA

Prieskorn

Kaaret

2012

ApJ

View full text Add to dashboard Cite

We study the fluence distributions of over 3040 bursts from SGR 1806−20 and over 1963 bursts from SGR 1900+14 using the complete set of observations available from the Rossi X-Ray Timing Explorer/Proportional Counter Array through 2011 March. Cumulative event distributions are presented for both sources and are fitted with single and broken power laws as well as an exponential cutoff. The distributions are best fitted by a broken power law with exponential cutoff; however the statistical significance of the cutoff is not high and the upper portion of the broken power law can be explained as the expected number of false bursts due to random noise fluctuations. Event distributions are also examined in high and low burst rate regimes and power-law indices are found to be consistent, independent of the burst rate. The contribution function of the event fluence is calculated. This distribution shows that the energy released in the soft gamma repeater (SGR) bursts is dominated by the most powerful events for both sources. The power-law nature of these distributions combined with the dominant energy dissipation of the system occurring in the large, less frequent bursts is indicative of a self-organized critical system, as suggested by Goǧus et al. in 1999.

show abstract

Section: Introductionmentioning

confidence: 99%

BURST FLUENCE DISTRIBUTIONS OF SOFT GAMMA REPEATERS 1806–20 AND 1900+14 IN THEROSSI X-RAY TIMING EXPLORERPCA ERA

Prieskorn

Kaaret

2012

ApJ

View full text Add to dashboard Cite

show abstract

“…This activity was observed by several high-energy missions, creating a good opportunity for investigating the broadband spectra of magnetar short bursts and intermediate flares in detail. Broadband spectral properties have been reported by several authors (e.g., van der Horst et al, 2012;Lin et al, 2012;Younes et al, 2014). …”

Section: Introductionmentioning

confidence: 81%

“…In early October 2008, both the Swift Burst Alert Telescope (BAT) and the Fermi Gamma Ray Burst Monitor (GBM) were triggered by numerous bursts from the source SGR 1550-5418 (Israel et al, 2010;von Kienlin et al, 2012). The source entered a second, even more active phase on 22 January 2009, during which a large number of bursts were observed by several satellites, as detected by Swift (Gronwall et al, 2009), Fermi GBM (Connaughton andBriggs, 2009;von Kienlin and Connaughton, 2009), Konus-Wind (Golenetskii et al, 2009), and RHESSI (Bellm et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

“…Soft X-ray emissions from solar flares are the more common sources of ionospheric disturbances, which can be monitored using the very low frequency (VLF) technique (Bracewell and Straker, 1949;Thomson et al, 2005;Pacini and Raulin, 2006;Raulin et al, 2006Raulin et al, , 2010. In addition to these solarterrestrial events, the lower ionosphere is also affected by high-energy photons (X-rays and gamma rays) from extraterrestrial sources like gamma ray burst (GRB) and SGR (Inan et al, 1999(Inan et al, , 2007Tanaka et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Ionospheric response to magnetar flare: signature of SGR J1550–5418 on coherent ionospheric Doppler radar

Mahrous

2017

Ann. Geophys.

View full text Add to dashboard Cite

Abstract. This paper presents observational evidence of frequent ionospheric perturbations caused by the magnetar flare of the source SGR J1550-5418, which took place on 22 January 2009. These ionospheric perturbations are observed in the relative change of the total electron content ( TEC/ t) measurements from the coherent ionospheric Doppler radar (CIDR). The CIDR system makes high-precision measurements of the total electron content (TEC) change along raypaths from ground receivers to low Earth-orbiting (LEO) beacon spacecraft. These measurements can be integrated along the orbital track of the beacon satellite to construct the relative spatial, not temporal, TEC profiles that are useful for determining the large-scale plasma distribution. The observed spatial TEC changes reveal many interesting features of the magnetar signatures in the ionosphere. The onset phase of the magnetar flare was during the CIDR's nighttime satellite passage. The nighttime small-scale perturbations detected by CIDR, with TEC/ t ≥ 0.05 TECU s −1 , over the eastern Mediterranean on 22 January 2009 were synchronized with the onset phase of the magnetar flare and consistent with the emission of hundreds of bursts detected from the source. The maximum daytime large-scale perturbation measured by CIDR over northern Africa and the eastern Mediterranean was detected after ∼ 6 h from the main phase of the magnetar flare, with TEC/ t ≤ 0.10 TECU s −1 . These ionospheric perturbations resembled an unusual poleward traveling ionospheric disturbance (TID) caused by the extraterrestrial source. The TID's estimated virtual velocity is 385.8 m s −1 , with TEC/ t ≤ 0.10 TECU s −1 .

show abstract

“…Consequently, the peak energy parameter of the Comptonized (often labeled as COMPT) model is interpreted in relation to the electron temperature. Time integrated spectral analysis of nearly 300 bursts from SGR J1550−5418 result in an average power law photon index of −0.92 and peak energy (E peak ) is typically around 40 keV (van der Horst et al 2012). …”

Section: Introductionmentioning

confidence: 99%

Broadband Spectral Investigations of Magnetar Bursts

Kirmizibayrak

Mus

Kaneko

et al. 2017

ApJS

View full text Add to dashboard Cite

We present our broadband (2 -250 keV) time-averaged spectral analysis of 388 bursts from SGR J1550−5418, SGR 1900+14 and SGR 1806−20 detected with the Rossi X-ray Timing Explorer (RXTE) here and as a database in a companion web-catalog. We find that two blackbody functions (BB+BB), sum of two modified blackbody functions (LB+LB), sum of blackbody and powerlaw functions (BB+PO) and a power law with a high energy exponential cut-off (COMPT) all provide acceptable fits at similar levels. We performed numerical simulations to constrain the best fitting model for each burst spectrum and found that 67.6% burst spectra with well-constrained parameters are better described by the Comptonized model. We also found that 64.7% of these burst spectra are better described with LB+LB model, which is employed in SGR spectral analysis for the first time here, than BB+BB and BB+PO. We found a significant positive lower bound trend on photon index, suggesting a decreasing upper bound on hardness, with respect to total flux and fluence. We compare this result with bursts observed from SGR and AXP sources and suggest the relationship is a distinctive characteristic between the two. We confirm a significant anti-correlation between burst emission area and blackbody temperature and find that it varies between the hot and cool blackbody temperatures differently than previously discussed. We expand on the interpretation of our results in the framework of strongly magnetized neutron star case.

show abstract

SGR J1550–5418 BURSTS DETECTED WITH THEFERMIGAMMA-RAY BURST MONITOR DURING ITS MOST PROLIFIC ACTIVITY

Cited by 85 publications

References 48 publications

BURST FLUENCE DISTRIBUTIONS OF SOFT GAMMA REPEATERS 1806–20 AND 1900+14 IN THEROSSI X-RAY TIMING EXPLORERPCA ERA

BURST FLUENCE DISTRIBUTIONS OF SOFT GAMMA REPEATERS 1806–20 AND 1900+14 IN THEROSSI X-RAY TIMING EXPLORERPCA ERA

Ionospheric response to magnetar flare: signature of SGR J1550–5418 on coherent ionospheric Doppler radar

Broadband Spectral Investigations of Magnetar Bursts

Contact Info

Product

Resources

About