INVESTIGADORES
ORTEGA Martin Eduardo
artículos
Título:
Unveiling the birth and evolution of the HII region Sh2-173
Autor/es:
S. CICHOWOLSKI; G. ROMERO; M. ORTEGA; C. CAPPA; J. VASQUEZ
Revista:
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Referencias:
Año: 2009 vol. 394 p. 900 - 915
ISSN:
0035-8711
Resumen:
Based on a multiwavelength study, the interstellar medium around the HII
region Sh2-173 has been analysed. The ionized region is clearly detected
in the optical and the radio continuum images. The analysis of the HI
data shows a region of low emissivity that has an excellent
morphological correlation with the radio continuum emission. The HII
region is partially bordered by a photodissociation region, which, in
turn, is encircled by a molecular structure. The HI and CO structures
related to Sh2-173 are observed in the velocity ranges from -25 to -31
kms-1 and from -27 to -39 kms-1, respectively.
Taking into account the presence of non-circular motions in the Perseus
spiral arm, together with previous distance estimates for the region, we
adopt a distance of 2.5 +/- 0.5 kpc for Sh2-173. Seven hot stars were
identified in the field of Sh2-173, being only one O-type star. The
amount of energetic photons emitted by this star is enough to keep the
region ionized and heat the dust. Given that an expanding HII region may
trigger star formation, a search for young stellar object (YSO)
candidates was made using different infrared point source catalogues. A
population of 46 YSO candidates was identified, projected on to the
molecular clouds.
On the other hand, Sh2-173 is located in a dense edge of a large
(~5°) HI shell, GSH117.8+1.5-35. The possibility of Sh2-173 being
part of a hierarchical system of three generations is suggested. In this
scenario, the large HI shell, which probably originated due to the
action of CasOB5, would have triggered the formation of Sh2-173, which,
in turn, is triggering new stars in its surrounding molecular cloud. To
test this hypothesis, the ages of both the HII region and the large
shell were estimated and compared. We concluded that Sh2-173 is a young
HII region of about 0.6-1.0 Myr old. As for the large shell, we obtained
a dynamical age of 5 +/- 1 Myr. These age estimates, together with the
relative location of the different structures, support the hypothesis
that Sh2-173 is part of a hierarchical system.