The KMOS Redshift One Spectroscopic Survey (KROSS): The Tully-Fisher Relation at z 1

The KMOS Redshift One Spectroscopic Survey (KROSS): The Tully-Fisher Relation at z 1. Tiley, A. L., Stott, J. P., Swinbank, A. M., Bureau, M., Harrison, C. M., Bower, R., Johnson, H. L., Bunker, A. J., Jarvis, M. J., Magdis, G., Sharples, R., Smail, I., Sobral, D., & Best, P. 2016. cite arxiv:1604.06103Comment: Accepted for publication in MNRAS. 30 pages, 7 figures

Paper doi abstract bibtex

We present the stellar mass ($M_{*}$), and K-corrected $K$-band absolute magnitude ($M_{K}$) Tully-Fisher relations (TFRs) for sub-samples of the 584 galaxies spatially resolved in H$α$ emission by the KMOS Redshift One Spectroscopic Survey (KROSS). We model the velocity field of each of the KROSS galaxies and extract a rotation velocity, $V_{80}$ at a radius equal to the major axis of an ellipse containing 80% of the total integrated H$α$ flux. The large sample size of KROSS allowed us to select 210 galaxies with well measured rotation speeds. We extract from this sample a further 56 galaxies that are rotationally supported, using the stringent criterion $V_{80}/σ > 3$, where $σ$ is the flux weighted average velocity dispersion. We find the $M_{K}$ and $M_{*}$ TFRs for this sub-sample to be $M_{K} / m̊{mag}= (-7.3 ± 0.9) × [(łog(V_{80}/m̊{km\ s^{-1}})-2.25]- 23.4 ± 0.2$ , and $łog(M_{*} / M_{⊙})= (4.7 ± 0.4) × [(łog(V_{80}/m̊{km\ s^{-1}}) - 2.25] + 10.0 ± 0.3$, respectively. We find an evolution of the $M_{*}$ TFR zero-point of $-0.41 ± 0.08$ dex over the last $∼ $8 billion years. However, we measure no evolution in the $M_{K}$ TFR zero-point over the same period. We conclude that rotationally supported galaxies of a given dynamical mass had less stellar mass at $z ∼ 1$ than the present day, yet emitted the same amounts of $K$-band light. The ability of KROSS to differentiate, using integral field spectroscopy with KMOS, between those galaxies that are rotationally supported and those that are not explains why our findings are at odds with previous studies without the same capabilities.

@misc{tiley2016redshift,
  abstract = {We present the stellar mass ($M_{*}$), and K-corrected $K$-band absolute
magnitude ($M_{K}$) Tully-Fisher relations (TFRs) for sub-samples of the 584
galaxies spatially resolved in H$\alpha$ emission by the KMOS Redshift One
Spectroscopic Survey (KROSS). We model the velocity field of each of the KROSS
galaxies and extract a rotation velocity, $V_{80}$ at a radius equal to the
major axis of an ellipse containing 80% of the total integrated H$\alpha$ flux.
The large sample size of KROSS allowed us to select 210 galaxies with well
measured rotation speeds. We extract from this sample a further 56 galaxies
that are rotationally supported, using the stringent criterion $V_{80}/\sigma >
3$, where $\sigma$ is the flux weighted average velocity dispersion. We find
the $M_{K}$ and $M_{*}$ TFRs for this sub-sample to be $M_{K} / \rm{mag}= (-7.3
\pm 0.9) \times [(\log(V_{80}/\rm{km\ s^{-1}})-2.25]- 23.4 \pm 0.2$ , and
$\log(M_{*} / M_{\odot})= (4.7 \pm 0.4) \times [(\log(V_{80}/\rm{km\ s^{-1}}) -
2.25] + 10.0 \pm 0.3$, respectively. We find an evolution of the $M_{*}$ TFR
zero-point of $-0.41 \pm 0.08$ dex over the last $\sim $8 billion years.
However, we measure no evolution in the $M_{K}$ TFR zero-point over the same
period. We conclude that rotationally supported galaxies of a given dynamical
mass had less stellar mass at $z \sim 1$ than the present day, yet emitted the
same amounts of $K$-band light. The ability of KROSS to differentiate, using
integral field spectroscopy with KMOS, between those galaxies that are
rotationally supported and those that are not explains why our findings are at
odds with previous studies without the same capabilities.},
  added-at = {2016-04-22T09:45:25.000+0200},
  author = {Tiley, Alfred L. and Stott, John P. and Swinbank, A. M. and Bureau, Martin and Harrison, Chris M. and Bower, Richard and Johnson, Helen L. and Bunker, Andrew J. and Jarvis, Matt J. and Magdis, Georgios and Sharples, Ray and Smail, Ian and Sobral, David and Best, Philip},
  biburl = {https://www.bibsonomy.org/bibtex/290b2629ec33aa9dc4648316ce2dbfcb8/miki},
  description = {[1604.06103] The KMOS Redshift One Spectroscopic Survey (KROSS): The Tully-Fisher Relation at z ~ 1},
  doi = {10.1093/mnras/stw936},
  interhash = {8134c13eb12cfb06af840784339fa12a},
  intrahash = {90b2629ec33aa9dc4648316ce2dbfcb8},
  keywords = {mass galaxy rotation z~1},
  note = {cite arxiv:1604.06103Comment: Accepted for publication in MNRAS. 30 pages, 7 figures},
  timestamp = {2016-04-22T09:45:25.000+0200},
  title = {The KMOS Redshift One Spectroscopic Survey (KROSS): The Tully-Fisher
  Relation at z ~ 1},
  url = {http://arxiv.org/abs/1604.06103},
  year = 2016
}

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The large sample size of KROSS allowed us to select 210 galaxies with well measured rotation speeds. We extract from this sample a further 56 galaxies that are rotationally supported, using the stringent criterion $V_{80}/σ > 3$, where $σ$ is the flux weighted average velocity dispersion. We find the $M_{K}$ and $M_{*}$ TFRs for this sub-sample to be $M_{K} / m̊{mag}= (-7.3 ± 0.9) × [(łog(V_{80}/m̊{km\\ s^{-1}})-2.25]- 23.4 ± 0.2$ , and $łog(M_{*} / M_{⊙})= (4.7 ± 0.4) × [(łog(V_{80}/m̊{km\\ s^{-1}}) - 2.25] + 10.0 ± 0.3$, respectively. We find an evolution of the $M_{*}$ TFR zero-point of $-0.41 ± 0.08$ dex over the last $∼ $8 billion years. However, we measure no evolution in the $M_{K}$ TFR zero-point over the same period. We conclude that rotationally supported galaxies of a given dynamical mass had less stellar mass at $z ∼ 1$ than the present day, yet emitted the same amounts of $K$-band light. 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We model the velocity field of each of the KROSS\r\ngalaxies and extract a rotation velocity, $V_{80}$ at a radius equal to the\r\nmajor axis of an ellipse containing 80% of the total integrated H$\\alpha$ flux.\r\nThe large sample size of KROSS allowed us to select 210 galaxies with well\r\nmeasured rotation speeds. We extract from this sample a further 56 galaxies\r\nthat are rotationally supported, using the stringent criterion $V_{80}/\\sigma >\r\n3$, where $\\sigma$ is the flux weighted average velocity dispersion. We find\r\nthe $M_{K}$ and $M_{*}$ TFRs for this sub-sample to be $M_{K} / \\rm{mag}= (-7.3\r\n\\pm 0.9) \\times [(\\log(V_{80}/\\rm{km\\ s^{-1}})-2.25]- 23.4 \\pm 0.2$ , and\r\n$\\log(M_{*} / M_{\\odot})= (4.7 \\pm 0.4) \\times [(\\log(V_{80}/\\rm{km\\ s^{-1}}) -\r\n2.25] + 10.0 \\pm 0.3$, respectively. 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