2017MNRAS.470.2599C -
Mon. Not. R. Astron. Soc., 470, 2599-2610 (2017/September-3)
A break in the high-redshift stellar mass Tully-Fisher relation.
CHRISTENSEN L. and HJORTH J.
Abstract (from CDS):
We investigate the stellar-mass Tully-Fisher relation (TFR) between the stellar mass and the integrated gas velocity dispersion, quantified by the kinematic estimator S0.5 measured from strong emission lines in spectra of galaxies at 0 < z < 5. We combine luminosity-selected galaxies ('high-luminosity sample') with galaxies selected in other ways ('low-luminosity sample') to cover a range in stellar mass that spans almost five orders of magnitude: 7.0 <= log M*/M☉ <= 11.5. We find that the logarithmic power-law slope and normalization of the TFR are independent of redshift out to z ∼ 3. The scatter in the TFR is <0.5 dex such that the gas velocity dispersion can be used as a proxy for the stellar mass of a galaxy independently of its redshift. At z > 3, the scatter increases and the existence of a correlation is not obvious. The high-luminosity sample exhibits a flatter slope of 1.5 ± 0.2 at z < 3 compared to the low-luminosity sample slope of 2.9 ± 0.3, suggesting a turnover in the TFR. The combined sample is well fit with a break in the TFR at a characteristic stellar-mass scale of M* ∼ 1010 M☉, with no significant evolution out to z ∼ 3. We demonstrate that a break in the TFR with a steeper slope at the low-mass end is a natural consequence of galaxy models with a mass-dependent stellar-to-halo mass ratio.
Abstract Copyright:
© 2017 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society
Journal keyword(s):
galaxies: evolution - galaxies: fundamental parameters - galaxies: high-redshift - galaxies: kinematics and dynamics - galaxies: kinematics and dynamics
Simbad objects:
39
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