Abstract
X-ray bursters form a class of Low Mass X-Ray Binaries where accreted material from a donor star undergoes rapid thermonuclear burning in the surface layers of a neutron star. The flux released can temporarily exceed the Eddington limit and drive the photosphere to large radii.
Such photospheric radius expansion bursts likely eject nuclear burning ashes into the interstellar medium, and may make possible the detection of photoionization edges. Indeed, theoretical models predict that absorption edges from 58Fe at 9.2 keV, 60Zn and 62Zn at 12.2 keV should be detectable by the future missions Simbol-X and NuSTAR. A positive detection would thus probe the nuclear burning as well as the gravitational redshift from the neutron star. Moreover, likely observations of atomic X-ray spectral components reflected from the inner accretion disk have been reported. The high spectral resolution capabilities of the focusing X-ray telescopes may therefore make possible
to differentiate between the potential interpretations of the X-ray bursts spectral features.
Original language | English |
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Title of host publication | SIMBOL-X: Focusing on the hard x-ray Universe : Proceedings of the 2nd International Simbol-X Symposium |
Number of pages | 398 |
Volume | 1126 |
Publisher | American Institute of Physics |
Publication date | 2009 |
Pages | 328-330 |
ISBN (Print) | 978-0-7354-0662-9 |
Publication status | Published - 2009 |
Keywords
- Neutron
- Stars
- X-ray
- Bursts