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Showing papers by "Anthony G. A. Brown published in 2001"


Journal ArticleDOI
TL;DR: In this paper, adaptive optics JHKs imaging observations of three main-sequence late B-type stars listed in the Lindroos Catalogue: HD123445, HD127971 and HD129791 are presented.
Abstract: We present adaptive optics JHKs imaging observations of three main-sequence late B-type stars listed in the Lindroos Catalogue: HD123445, HD127971 and HD129791. Given their spectral types, these stars should not be X-ray emitters. However, they have been detected by ROSAT and their X-ray emission has been attributed to possible unresolved late-type companions. We have carried out near-IR observations with ADONIS at the ESO 3.6m but have not detected any late-type companions close to HD127971 and HD129791. This result leads us to conclude that either (i) they are spectroscopic binaries with unresolved low-mass companions, or (ii) they are intrinsic X-ray emitters. While the former case would be consistent with the reported high multiplicity of early-type (A and B) stars, the latter would yield a revision of stellar activity theories which do not predict X-ray emission from these stars. On the other hand, HD123445 does indeed show visual companions, namely an apparent subarcsecond faint (Ks=10mag) binary system at a projected separation of 5" from the late-B type star. The JHKs magnitudes and colors of the components are consistent with a pair of Pre Main Sequence (PMS) K-type stars at 140 pc, i.e. possible members of the Upper Centaurus Lupus association. In this case the reported X-ray emission can be ascribed to the new binary system. Nevertheless, spectroscopy is required to confirm the possible PMS nature of the pair.

13 citations



Journal ArticleDOI
Abstract: We present adaptive optics JHK S imaging observations of three main-sequence late B-type stars listed in the Lindroos Catalogue: HD 123445, HD 127971 and HD 129791. Given their spectral types, these stars should not be X-ray emitters. However, they have been detected by ROSAT and their X-ray emission has been attributed to possible unresolved late-type companions. We have carried out near-IR observations with ADONIS at the ESO 3.6 m but have not detected any late-type companions close to HD 127971 and HD 129791. This result leads us to conclude that either (i) they are spectroscopic binaries with unresolved low-mass companions, or (ii) they are intrinsic X-ray emitters. While the former case would be consistent with the reported high multiplicity of early-type (A and B) stars, the latter would yield a revision of stellar activity theories which do not predict X-ray emission from these stars. On the other hand, HD 123445 does indeed show visual companions, namely an apparent subarcsecond faint ($K_{\rm s}\sim10$) binary system at a projected separation of 5´´from the late-B type star. The JHK S magnitudes and colors of the components are consistent with (i) a pair of Pre Main Sequence (PMS) K-type stars at 140 pc (i.e. possible members of the Upper Centaurus Lupus association), (ii) a pair of Main Sequence M-type stars at 60 pc and (iii) a pair of K-type giants at 2.6 kpc. While in the first case the reported X-ray emission can be ascribed to the new objects, in the second and third case it cannot, and we have to assume the late B-type star to be either a spectroscopic binary itself or a single star with intrinsic X-ray emission. Spectroscopy is required to confirm the possible PMS nature of the new binary and Chandra X-ray high spatial resolution (astrometric) imaging observations are required to definitely determine the source of the X-ray emission. If the B9 star results to be the X-ray emitter, near-IR spectroscopy can be used to investigate the presence of a T Tauri like spectroscopic companions.

9 citations


12 Jan 2001
TL;DR: In this paper, the authors describe the observational evidence for the ongoing dissolution of OB associations and open clusters and discuss future observational requirements and the possibilities offered by upcoming astrometric space missions.
Abstract: If we want to understand the evolution from star clusters to the Galactic field star population, the Solar neighbourhood is an ideal place to start. It contains objects from dense, very young clusters to old and almost dissolved moving groups. I describe the observational evidence for the ongoing dissolution of OB associations and open clusters. Subsequently, the interpretation of the local phase space distribution of stars in terms of old moving groups is discussed, emphasising the present limitations. Finally, I discuss future observational requirements and the possibilities offered by upcoming astrometric space missions.

4 citations


Journal Article
TL;DR: In this article, a review on open clusters and OB associations is presented, which discusses some recent developments to which Latin American astronomers have contributed to open cluster and OB association research, and discusses some of the recent developments.
Abstract: In this review on open clusters and OB associations I discuss some recent developments to which Latin American astronomers have contributed. Subsequently, re...

2 citations



Posted Content
TL;DR: In this paper, the authors describe the observational evidence for the ongoing dissolution of OB associations and open clusters and discuss future observational requirements and the possibilities offered by upcoming astrometric space missions.
Abstract: If we want to understand the evolution from star clusters to the Galactic field star population, the Solar neighbourhood is an ideal place to start. It contains objects from dense, very young clusters to old and almost dissolved moving groups. I describe the observational evidence for the ongoing dissolution of OB associations and open clusters. Subsequently, the interpretation of the local phase space distribution of stars in terms of old moving groups is discussed, emphasising the present limitations. Finally, I discuss future observational requirements and the possibilities offered by upcoming astrometric space missions.