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Fermi-GBM type I X-ray burst project: An all-sky view of thermonuclear bursts. M. Linares (MIT, Rubicon Fellow) V. Connaughton (CSPAR/UAH), P. Jenke (ORAU),

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Presentation on theme: "Fermi-GBM type I X-ray burst project: An all-sky view of thermonuclear bursts. M. Linares (MIT, Rubicon Fellow) V. Connaughton (CSPAR/UAH), P. Jenke (ORAU),"— Presentation transcript:

1 Fermi-GBM type I X-ray burst project: An all-sky view of thermonuclear bursts. M. Linares (MIT, Rubicon Fellow) V. Connaughton (CSPAR/UAH), P. Jenke (ORAU), A. Camero-Arranz (FECYT), E. Beklen (METU), M. H. Finger (USRA), C. Wilson-Hodge, C. Kouveliotou (NASA/MSFC), A. J. van der Horst (NASA/MSFC/ORAU), D. Chakrabarty (MIT), A. L. Watts (Amsterdam)

2 World English Dictionary monitor — n 1. a person or piece of equipment that warns, checks, controls, or keeps a continuous record of something Dictionary.com monitor — 6. an instrument for detecting dangerous gases, radiation, etc.

3 Thermonuclear bursts from NS-LMXBs http://www.gsfc.nasa.gov/topstory/2004/0220stardisk.html

4 Field of view: all unocculted (75%) sky. X-ray response: down to 8 keV. Optimal instrument to detect rare & bright thermonuclear bursts. Fermi-GBM

5 GBM and X-ray bursts Systematic X-ray burst search and processing at NSSTC & MIT. So far (March 2010 – November 2010): ~346 XRB candidates (~1.3/day)

6 GBM and X-ray bursts Durations: 20-400 s; Av. net rates: 5-100 c/s (11-27 keV band)

7 GBM and thermonuclear bursts: 4U 0614+09

8 7 type I X-ray bursts from 4U 0614+09 between March and October, 2010. 51% observation duty cycle: Burst recurrence time = 16 +/- 6 d GBM and thermonuclear bursts: 4U 0614+09

9 Kuulkers et al. (2009) 7 GBM bursts in ~8 months! GBM and thermonuclear bursts: 4U 0614+09

10

11

12 Long (aka ‘intermediate duration’) type I burst from XTE J1701-407:XRT ~15x longer than BAT GBM and thermonuclear bursts: 4U 0614+09 Linares et al. (2009) Falanga et al. (2009)

13 Observations of bursts have been strongly biased towards bright (and therefore high Mdot ) states of LMXBs. Recurrence times of low-Mdot bursts have proven extremely difficult to measure. A scenario has been proposed to explain short low-Mdot bursts that involves stable(unstable) hydrogen burning that builds up(ignites) a pure helium layer (Fujimoto et al. 1981; Bildsten 1998). On the other hand, sedimentation of heavy elements is thought to play an important role in the production of long low- Mdot bursts (Peng et al. 2007). GBM is measuring their recurrence time to provide crucial missing info: how much mass is accreted to reach ignition? GBM and thermonuclear bursts: 4U 0614+09 (see Cir X-1 poster for high Mdot bursts)

14 MAXI: -”Normal” type I bursts. -Well suited to superbursts (duration ~day). -Well sampled long-term accretion rate history. MAXI and thermonuclear bursts

15 GBM: Also an X-ray burst monitor, building a valuable archive of several transient high- energy phenomena. GBM has opened new ways in the study of thermonuclear bursts, low-Mdot bursts in particular. 4U 0614+09 bursts every ~16 days during 2010, while Mdot keeps close to 1% Eddington. Summary

16 Arigato for your attention.

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