Lopsided Galaxies, Weak Interactions and Boosting the Star Formation Rate

Abstract

To investigate the link between weak tidal interactions in disk galaxies and the boosting of their recent star formation, we obtain images and spatially integrated spectra (3615A < lambda < 5315A) for 40 late-type spiral galaxies (Sab-Sbc) with varying degrees of lopsidedness (a dynamical indicator of weak interactions). We quantify lopsidedness as the amplitude <A1> of the m=1 Fourier component of the azimuthal surface brightness distribution, averaged over a range of radii. We compare the young stellar content, quantified by EW(Hδabs) and the strength of the 4000 Angstrom break (D4000), with lopsidedness and find a 3-4 sigma correlation between the two. We also find a 3.2 sigma correlation between EW(Hβemission) and lopsidedness. Using the evolutionary population synthesis code of Bruzual & Charlot we model the spectra as an ``underlying population'' and a superimposed ``boost population'' with the aim of constraining the fractional boost in the SFR averaged over the past 0.5 Gyr (the characteristic lifetime of lopsidedness). From the difference in both EW(Hδabs) and D4000 between the most and least symmetric thirds of our sample, we infer that ~ 1x109 Msolar of stars are formed over the duration of a lopsided event in addition to the ``underlying'' SFH (assuming a final galactic stellar mass of 1010 Msolar). This corresponds to a factor of 8 increase in the SFR over the past 5x108 years. For the nuclear spectra, all of the above correlations except D4000 vs. <A1> are weaker than for the disk, indicating that in lopsided galaxies, the SF boost is not dominated by the nucleus.

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