http://arxiv.org/abs/1609.01739
We use EAGLE to study the specific angular momentum of galaxies, j, at z<3. Our aims are (i) to investigate the physical causes behind the wide range of j in galaxies at fixed mass at z=0 and (ii) examine whether simple, theoretical models can explain the seemingly complex and non-linear nature of the evolution of j in EAGLE. We find that j of the stars, jstars, and baryons, jbar, are strongly correlated with stellar and baryon mass, respectively, and that the dispersion of the relation is highly correlated with gas fraction, stellar concentration, (u-r) colour, stellar age and the ratio of circular velocity to velocity dispersion. We compare with available observations at z=0 and find excellent agreement. Our findings suggest that in the case of all baryons and stars, j follows the theoretical expectation of an isothermal collapsing halo under conservation of j to within 50%. In rotation-supported galaxies, the strong dependence of jstars and jbar on the neutral gas fraction is well described by a model in which the disk angular momentum is just enough to maintain marginally stable disks. We also identify average tracks for the evolution of the spin parameter of the stars, lstars =j/M^2/3, (with j measured within a half-stellar mass radius), depending on whether most of the stars formed before or after turnaround (z~1.2 for our galaxies). In the absence of mergers, galaxies older than 9Gyr (i.e. most stars formed before turnaround) show little evolution in their lstars, while younger ones show a constant lstars at z>1.2, and then increase as lstars~a. Galaxy mergers reduce lstars by a factor of 2-3. These tracks are driven by both the evolution of the total jstars but also its radial distribution. Regardless of the aperture used to measure j, two distinct channels leading to low jstars in galaxies at z=0 are identified: (i) galaxy mergers, and (ii) early formation of most of the stars.
C. Lagos, T. Theuns, A. Stevens, et. al.
Thu, 8 Sep 16
2/60
Comments: 22 pages (16 without appendices). Resubmitted to MNRAS after second referee report requesting minor corrections. Abstract has been slightly modified to fit in 1,920 characters
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