INVESTIGADORES
ALONSO GIRALDES Maria Sol
artículos
Título:
Galaxy interactions I: Major and minor mergers
Autor/es:
LAMBAS, DIEGO G. (1,3); ALONSO, SOL (1,2); MESA, VALERIA (1,2); O'MILL, ANA L. (1,4)
Revista:
ASTRONOMY AND ASTROPHYSICS
Editorial:
EDP SCIENCES S A
Referencias:
Lugar: Paris; Año: 2012 vol. 539 p. 1 - 9
ISSN:
0004-6361
Resumen:
Aims: We study galaxy pair samples selected from the Sloan Digital Sky Survey (SDSS-DR7) and we perform an analysis of minor and major mergers with the aim of investigating the dependence of galaxy properties on interactions. Methods: We build a galaxy pair catalog requiring r_p < 25 kpc h^-1 and Delta V < 350 km s^-1 within redshift z<0.1.By visual inspection of SDSS images we removed false identifications and we classify the interactions into three categories: pairs undergoing merging, M; pairs with evident tidal features, T; and non disturbed, N.We also divide the pair sample into minor and major interactions according to the luminosity ratio of the galaxy members. We study star formation activity through colors, the 4000 AA break, and star formation rates.Results: We find that sim 10% of the pairs are classified as M. These systems show an excess of young stellar populations as inferred from the Dn(4000) spectral index, colors, and star formation rates of the member galaxies, an effect which we argue, is directly related to the ongoing merging process. We find sim 30% of the pairs exhibiting tidal features (T pairs) with member galaxies showing evidence of old stellar populations. This can be associated either to the disruptive effect of some tidal interactions, or  to the longer time-scale of morphological disturbance with respect to the bursts of the tidal induced star formation.  Regardless of the color distribution, we find a prominent blue peak in the strongest mergers, while pairs with tidal signs under a minor merger show a strong red peak. Therefore, our results show that galaxy interactions are important in driving the evolution of galaxy bimodality.By adding stellar masses and star formation rates of the two members of the pairs, we explore the global efficiency of star formation of the pairs as a whole. We find that, at a given total stellar mass, major mergers are significantly more efficient (a factor approx 2) in forming new stars, with respect to both minor mergers or a control sample of non-interacting galaxies.We conclude that the characteristics of the interactions and the ratio of luminosity galaxy pair members involved in a merger are important parameters in setting galaxy properties.