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Artist's impression of a neutron star devouring a massive clump of matter [animation]

Artist's impression of a neutron star devouring a massive clump of matter [animation]

Date: 28 June 2011
Satellite: XMM-Newton
Depicts: Neutron star ingesting a clump of matter (artist's impression)
Copyright: ESA/AOES Medialab

This animated sequence of images illustrates the ingestion of a clump of matter by the neutron star hosted in the Supergiant Fast X-Ray Transient, IGR J18410-0535. The neutron star is shown, on the right, with the field lines highlighting its intense magnetic field, while the companion, a blue supergiant, is represented as the large star on the left. The relative sizes of the objects displayed in the illustrations are purely indicative; in fact, the radius of the supergiant is about 2 million times larger than that of the neutron star.

Data collected by ESA's XMM-Newton X-ray observatory appear to show that a denser patch in the stellar wind, released by the supergiant and accreted by the neutron star, contributed to boosting the X-ray luminosity of the source.

The animation shows the binary system, first in its ordinary state, with the neutron star accreting matter from the supergiant's wind, and then as the accretion rate is abruptly enhanced through the ingestion, by the neutron star, of a clump of matter present in the stellar wind. The clump of matter is shown as it gradually approaches the neutron star and subsequently engulfs the neutron star, which accretes its material; eventually the remains of the clump move away or are dissolved in the diffuse matter of the stellar wind.

The ingestion of the clump material produced a dramatic increase in the X-rays released by the neutron star, which was detected with XMM-Newton. The peak in the X-ray luminosity corresponds to the period when the accretion rate was at its maximum.

The degree of absorption by the material surrounding the neutron star displayed a peculiar trend throughout the entire observation, which was crucial in constraining the accretion scenario. In fact, the absorption was observed to increase initially, then to decrease, increase again, and eventually decrease down to the initial value. The first increase in absorption was due to the dense material of the clump filling the neutron star's immediate surroundings and absorbing significantly the X-rays it emits. Next, the copious amounts of X-rays released by the neutron star as a consequence of the enhanced accretion photoionized the surrounding material, thus causing a decrease in absorption. After this point, the accretion rate, and subsequently the X-ray emission, started declining; by then, the remains of the clump had completely enveloped the neutron star, causing the amount of absorption to increase again, until it eventually decreased as the remains moved away or were dissolved.

Last Update: 1 September 2019
22-Jan-2022 01:57 UT

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