Документ взят из кэша поисковой машины. Адрес оригинального документа : http://mavr.sao.ru/Doc-en/SciNews/2012/ULXs/
Дата изменения: Unknown
Дата индексирования: Sun Feb 3 18:28:48 2013
Кодировка:

Поисковые слова: mimas
ULXs
Logo (Main page)

Origin of ultraluminous X-ray sources, relation to young stellar clusters

Russian version

    Ultraluminous X-ray sources (ULXs) are located in external galaxies, their X-ray luminosities (1039 - 1041 erg/s) are thousand times greater than those of brightest black holes in the Galaxy. ULXs may be supercritical accretion disks around black holes of stellar masses (~10 Solar masses) like that in SS433, or they may be a hypothetical intermediate-mass black holes (hundreds - thousands Solar masses) with standard accretion disks.
    We have carried out observations of stellar clusters related to the ULXs, in South sky there were observations with the VLT (VIMOS, MOS) of clusters in the Antennae galaxies (Fig. 1 and 2) and in NGC3256, in Northern sky with the BTA (Scorpio) of clusters in NGC4485/4490 galaxies. We have discovered that all the ULXs are located nearby to (inside about 200 pc) very young star clusters (Fig. 3), all the clusters are younger than 5 Myrs. A probability of occasional associations of the ULXs with the clusters is very little (0.0000001), it is even less for young clusters.
    We conclude:
1) The ULX progenitors are close binary systems with their star masses not less than 50-100 Solar masses. They are black holes of "stellar masses" with a supercritical accretion.
2) The ULX progenitors were ejected from the star clusters. The ejections because of the Supernova explosion can not explain these data, there is not a time both for stellar evolution and for the transportation from the cluster to outside. The ejection occurs due to 3- and 4-body encounters in the cluster centers at the very beginning stages of cluster evolution.
3) This confirmes the new ideas of stellar clusters formation. This mechanism explains the well-known problem in our Galaxy - the problem of massive run-away stars.
Published:
J.Poutanen, S.Fabrika, A.Valeev, O.Sholukhova, J.Greiner, arXiv1210.1210

Contact - Fabrika S.N.
Fig.1. The interacting Antennae galaxies, the image taken with the Hubble Space Telescope. Two bright white concentrations are nuclei of the merging galaxies. Green circles with numbers indicate locations of the brightest X-ray sources. Green rectangles show frames of the VIMOS spectrograph of the VLT/Melipal telescope. The same frames are shown in the cornes, locations of the ULXs are marked there with black circles

Fig.2. Enlarged images from Fig.1 of regions around the brightest X-ray sources (green circles) and their stellar clusters (the Hubble Space Telescope). The bars point to the host ULX clusters, when it is not obvious

Fig.3. Distributions of distances (offsets) between X-ray sources and young stellar clusters in arcseconds for Antennae galaxies (top) and NGC3257 (bottom). In the Antennae 1 arcsec corresponds to 100 pc, in NGC3256 1 arcsec is equal to 180 pc