79 research outputs found
Correlating galaxy morphologies and spectra in the 2dFGRS
The correlation between a galaxy's morphology and its observed optical
spectrum is investigated. As an example, 4000 galaxies from the 2dF Galaxy
Redshift Survey, which possess both good quality spectra and have visually
determined morphologies are analysed. Of particular use is the separation of
Early and Late type galaxies present in a redshift survey since these can then
be used in their respective redshift-independent distance estimators (Dn-sigma
and Tully-Fisher). It is determined that galaxies in this sample can be
relatively successfully separated into these two types by the use of various
statistical methods. These methods are briefly outlined in this paper and are
also compared to the default 2dFGRS spectral classification (eta). In addition
it is found that the 4000Ang break in the spectrum is the best discriminant in
determining its morphological type.Comment: LaTex, 12 pages, 11 figures. Accepted for publication in MNRA
The 2dF gravitational lens survey
The 2 degree Field (2dF) galaxy redshift survey will involve obtaining
approximately 2.5 x 10^5 spectra of objects previously identified as galaxy
candidates on morphological grounds. Included in these spectra should be about
ten gravitationally-lensed quasars, all with low-redshift galaxies as
deflectors (as the more common lenses with high-redshift deflectors will be
rejected from the survey as multiple point-sources). The lenses will appear as
superpositions of galaxy and quasar spectra, and both cross-correlation
techniques and principal components analysis should be able to identify
candidates systematically. With the 2dF survey approximately half-completed it
is now viable to begin a systematic search for these spectroscopic lenses, and
the first steps of this project are described here.Comment: PASA (OzLens edition), in press; 4 pages, 0 figure
The Spectroscopic Age of 47 Tuc
High signal-to-noise integrated spectra of the metal-rich globular cluster 47
Tuc, spanning the H-gamma(HR) and Fe4668 line indices, have been obtained. The
combination of these indices has been suggested (Jones & Worthey 1995, ApJ,
446, L31) as the best available mechanism for cleanly separating the
age-metallicity degeneracy which hampers the dating of distant, unresolved,
elliptical galaxies. For the first time, we apply this technique to a nearby
spheroidal system, 47 Tuc, for which independent ages, based upon more
established methods, exist. Such an independent test of the technique's
suitability has not been attempted before, but is an essential one before its
application to more distant, unresolved, stellar populations can be considered
valid. Because of its weak series of Balmer lines, relative to model spectra,
our results imply a spectroscopic ``age'' for 47 Tuc well in excess of 20 Gyr,
at odds with the colour-magnitude diagram age of 14+/-1 Gyr. The derived metal
abundance, however, is consistent with the known value. Emission ``fill-in'' of
the H-gamma line as the source of the discrepancy cannot be entirely excluded
by existing data, although the observational constraints are restrictive.Comment: 17 pages, 4 figures, LaTeX, accepted for publication in The
Astronomical Journal, also available at
http://casa.colorado.edu/~bgibson/publications.htm
Measuring Galaxy Environments with Deep Redshift Surveys
We study the applicability of several galaxy environment measures
(n^th-nearest-neighbor distance, counts in an aperture, and Voronoi volume)
within deep redshift surveys. Mock galaxy catalogs are employed to mimic
representative photometric and spectroscopic surveys at high redshift (z ~ 1).
We investigate the effects of survey edges, redshift precision, redshift-space
distortions, and target selection upon each environment measure. We find that
even optimistic photometric redshift errors (\sigma_z = 0.02) smear out the
line-of-sight galaxy distribution irretrievably on small scales; this
significantly limits the application of photometric redshift surveys to
environment studies. Edges and holes in a survey field dramatically affect the
estimation of environment, with the impact of edge effects depending upon the
adopted environment measure. These edge effects considerably limit the
usefulness of smaller survey fields (e.g. the GOODS fields) for studies of
galaxy environment. In even the poorest groups and clusters, redshift-space
distortions limit the effectiveness of each environment statistic; measuring
density in projection (e.g. using counts in a cylindrical aperture or a
projected n^th-nearest-neighbor distance measure) significantly improves the
accuracy of measures in such over-dense environments. For the DEEP2 Galaxy
Redshift Survey, we conclude that among the environment estimators tested the
projected n^th-nearest-neighbor distance measure provides the most accurate
estimate of local galaxy density over a continuous and broad range of scales.Comment: 17 pages including 16 figures, accepted to Ap
Spectroscopic detection of quasars in the 2dF Galaxy Redshift Survey
The 100,000 spectra from the 2 degree Field Galaxy Redshift Survey (2dFGRS)
in the 100k Public Data Release represent the largest single compilation of
galaxy spectra available. By virtue of its sheer size and the properties of the
photometric catalogue that defines the sample, the 2dFGRS is expected to
contain a number of potentially interesting objects other than galaxies. A
search of the spectra in the 100k Data Release results in a census of 55
candidate high-redshift (z > 0.3) quasars. One additional 2dFGRS spectrum of a
low-redshift galaxy shows an apparent anomalous broad emission feature perhaps
indicating the presence of a gravitationally lensed quasar. These objects have
been identified primarily using two automated routines that we have developed
specifically for this task, one of which uses a matched filter and the other a
wavelet transform. A number of the quasar images possess complicated
morphologies, suggesting the presence of either diffuse foreground objects
along the line-of-sight or very nearby point sources. The quasar catalogue will
form a target list for future absorption and lensing studies, as well as
providing an assessment of the loss of quasars with non-stellar images from the
companion 2dF QSO Redshift Survey.Comment: Latex 13 pages, 8 figures. Accepted for publication in MNRA
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