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The internal kinematics of intermediate redshift galaxies

A dilemma is posed by studies of galaxy evolution at intermediate redshifts.
If evolutionary effects are neglected, simple models predict number densities
of faint galaxies which are 2—5x lower than observed at z ≅ 0.4. Yet the
faint galaxy redshift distribution appears to be well modelled by the same
no—evolution models. If low-mass starbursting galaxies are responsible for
the excess, then the excess faint galaxy population should have rotation velocities
lower than those of quiescent galaxies with the same luminosity.
This thesis describes the results of a limited survey of the internal kinematics
of intermediate redshift (z = 0.25—0.45) field galaxies. The goal of
this survey was to find the unmistakable kinematical signature of low-mass
starbursting galaxies. Using the Canada-France-Hawaii Telescope, spatially resolved
spectra of the [O II] λλ 3726—3729 Å doublet emission line have
been obtained for 22 galaxies. High-spatial resolution has made it possible
to extract [special characters omitted] and [O II] disk scale length from each galaxy spectrum
using synthetic galaxy rotation curve fitting. It is found that about 25% of
the galaxies in the sample have [OIl] kinematics unrelated to rotation. [OIl]
emission is concentrated in the nucleus in these “kinematically anomalous"
galaxies. A Doppler ellipse similar to those found in local dwarf irregular
galaxies has been observed in a z = 0.35 galaxy.
An intermediate redshift Tully-Fisher (TF) relation defined by 12 kinematically
normal galaxies shows that these galaxies have a systematically
lower rotation velocity (i.e. mass) for their luminosity than expected from
the local TF relation. These galaxies would have to fade by ~ 1.5-2 mag to
lie on the local TF relation. This is consistent with starbursting dwarf galeixy
models. Although the sample is small, there is also a hint that massive galaxies
do not lie as far off the local TF relation as low-mass ones. However, as
shown using a large sample of local galaxies, the scatter in the local TF relation
is large, especially for late-type galaxies. Selection effects, particularly
[OIl] emission strength, could be responsible for part of the observed TF shift
if different star formation rates are responsible for the local TF scatter. A
comparison with other works indicates that the luminosity-dependent luminosity
evolution scenario neatly explains all the available internal kinematics
and surface brightness data. / Graduate

Identiferoai:union.ndltd.org:uvic.ca/oai:dspace.library.uvic.ca:1828/9740
Date19 July 2018
CreatorsSimard, Luc
ContributorsPritchet, Christopher J.
Source SetsUniversity of Victoria
LanguageEnglish, English
Detected LanguageEnglish
TypeThesis
Formatapplication/pdf
RightsAvailable to the World Wide Web

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