2,757 research outputs found
Absence management of migrant agency workers in the food manufacturing sector
© 2015 Taylor & Francis. Temporary workers in low-skilled roles often experience ‘hard’ HRM practices, for example the use of the Bradford Factor to monitor absence, rather than using incentives to reward attendance. However, this peripheral workforce has become increasingly diverse in the UK since the A8 European Union expansion, which has seen over a million migrants from central and eastern Europe register to work in the UK. Importantly, there is also heterogeneity within this group of workers, for example between those who intend to migrate for a short period of time then return, and those who are more settled and wish to develop a career. By considering the particular case of absence management, this paper examines how these different groups of migrants respond to HRM practices. The key contribution of the paper is to examine how different groups of migrants experience these practices, rather than simply comparing migrant and native workers as two homogeneous groups. The paper presents data from the food manufacturing sector in the UK. In total, 88 semi-structured interviews were conducted with operations managers, HR managers, union convenors and workers on permanent, temporary and agency contracts. In addition, data from informal interviews and observation at five companies are presented
Submillimeter Follow-up of WISE-Selected Hyperluminous Galaxies
We have used the Caltech Submillimeter Observatory (CSO) to follow-up a
sample of WISE-selected, hyperluminous galaxies, so called W1W2-dropout
galaxies. This is a rare (~ 1000 all-sky) population of galaxies at high
redshift (peaks at z=2-3), that are faint or undetected by WISE at 3.4 and 4.6
um, yet are clearly detected at 12 and 22 um. The optical spectra of most of
these galaxies show significant AGN activity. We observed 14 high-redshift (z >
1.7) W1W2-dropout galaxies with SHARC-II at 350 to 850 um, with 9 detections;
and observed 18 with Bolocam at 1.1 mm, with five detections. Warm Spitzer
follow-up of 25 targets at 3.6 and 4.5 um, as well as optical spectra of 12
targets are also presented in the paper. Combining WISE data with observations
from warm Spitzer and CSO, we constructed their mid-IR to millimeter spectral
energy distributions (SEDs). These SEDs have a consistent shape, showing
significantly higher mid-IR to submm ratios than other galaxy templates,
suggesting a hotter dust temperature. We estimate their dust temperatures to be
60-120 K using a single-temperature model. Their infrared luminosities are well
over 10^{13} Lsun. These SEDs are not well fitted with existing galaxy
templates, suggesting they are a new population with very high luminosity and
hot dust. They are likely among the most luminous galaxies in the Universe. We
argue that they are extreme cases of luminous, hot dust-obscured galaxies
(DOGs), possibly representing a short evolutionary phase during galaxy merging
and evolution. A better understanding of their long-wavelength properties needs
ALMA as well as Herschel data.Comment: Will be Published on Sep 1, 2012 by Ap
The robustness of cosmological hydrodynamic simulation predictions to changes in numerics and cooling physics
We test and improve the numerical schemes in our smoothed particle
hydrodynamics (SPH) code for cosmological simulations, including the
pressure-entropy formulation (PESPH), a time-dependent artificial viscosity, a
refined timestep criterion, and metal-line cooling that accounts for
photoionisation in the presence of a recently refined Haardt \& Madau (2012)
model of the ionising background. The PESPH algorithm effectively removes the
artificial surface tension present in the traditional SPH formulation, and in
our test simulations it produces better qualitative agreement with mesh-code
results for Kelvin-Helmholtz instability and cold cloud disruption. Using a set
of cosmological simulations, we examine many of the quantities we have studied
in previous work. Results for galaxy stellar and HI mass functions, star
formation histories, galaxy scaling relations, and statistics of the Ly
forest are robust to the changes in numerics and microphysics. As in our
previous simulations, cold gas accretion dominates the growth of high-redshift
galaxies and of low mass galaxies at low redshift, and recycling of winds
dominates the growth of massive galaxies at low redshift. However, the PESPH
simulation removes spurious cold clumps seen in our earlier simulations, and
the accretion rate of hot gas increases by up to an order of magnitude at some
redshifts. The new numerical model also influences the distribution of metals
among gas phases, leading to considerable differences in the statistics of some
metal absorption lines, most notably NeVIII.Comment: 29 pages, 25 figures, accepted by MNRA
A Simple Likelihood Method for Quasar Target Selection
We present a new method for quasar target selection using photometric fluxes
and a Bayesian probabilistic approach. For our purposes we target quasars using
Sloan Digital Sky Survey (SDSS) photometry to a magnitude limit of g=22. The
efficiency and completeness of this technique is measured using the Baryon
Oscillation Spectroscopic Survey (BOSS) data, taken in 2010. This technique was
used for the uniformly selected (CORE) sample of targets in BOSS year one
spectroscopy to be realized in the 9th SDSS data release. When targeting at a
density of 40 objects per sq-deg (the BOSS quasar targeting density) the
efficiency of this technique in recovering z>2.2 quasars is 40%. The
completeness compared to all quasars identified in BOSS data is 65%. This paper
also describes possible extensions and improvements for this techniqueComment: Updated to accepted version for publication in the Astrophysical
Journal. 10 pages, 10 figures, 3 table
No More Active Galactic Nuclei in Clumpy Disks Than in Smooth Galaxies at z~2 in CANDELS / 3D-HST
We use CANDELS imaging, 3D-HST spectroscopy, and Chandra X-ray data to
investigate if active galactic nuclei (AGNs) are preferentially fueled by
violent disk instabilities funneling gas into galaxy centers at 1.3<z<2.4. We
select galaxies undergoing gravitational instabilities using the number of
clumps and degree of patchiness as proxies. The CANDELS visual classification
system is used to identify 44 clumpy disk galaxies, along with mass-matched
comparison samples of smooth and intermediate morphology galaxies. We note
that, despite being being mass-matched and having similar star formation rates,
the smoother galaxies tend to be smaller disks with more prominent bulges
compared to the clumpy galaxies. The lack of smooth extended disks is probably
a general feature of the z~2 galaxy population, and means we cannot directly
compare with the clumpy and smooth extended disks observed at lower redshift.
We find that z~2 clumpy galaxies have slightly enhanced AGN fractions selected
by integrated line ratios (in the mass-excitation method), but the spatially
resolved line ratios indicate this is likely due to extended phenomena rather
than nuclear AGNs. Meanwhile the X-ray data show that clumpy, smooth, and
intermediate galaxies have nearly indistinguishable AGN fractions derived from
both individual detections and stacked non-detections. The data demonstrate
that AGN fueling modes at z~1.85 - whether violent disk instabilities or
secular processes - are as efficient in smooth galaxies as they are in clumpy
galaxies.Comment: ApJ accepted. 17 pages, 17 figure
Think Outside the Color Box: Probabilistic Target Selection and the SDSS-XDQSO Quasar Targeting Catalog
We present the SDSS-XDQSO quasar targeting catalog for efficient flux-based
quasar target selection down to the faint limit of the Sloan Digital Sky Survey
(SDSS) catalog, even at medium redshifts (2.5 <~ z <~ 3) where the stellar
contamination is significant. We build models of the distributions of stars and
quasars in flux space down to the flux limit by applying the
extreme-deconvolution method to estimate the underlying density. We convolve
this density with the flux uncertainties when evaluating the probability that
an object is a quasar. This approach results in a targeting algorithm that is
more principled, more efficient, and faster than other similar methods. We
apply the algorithm to derive low-redshift (z < 2.2), medium-redshift (2.2 <= z
3.5) quasar probabilities for all 160,904,060
point sources with dereddened i-band magnitude between 17.75 and 22.45 mag in
the 14,555 deg^2 of imaging from SDSS Data Release 8. The catalog can be used
to define a uniformly selected and efficient low- or medium-redshift quasar
survey, such as that needed for the SDSS-III's Baryon Oscillation Spectroscopic
Survey project. We show that the XDQSO technique performs as well as the
current best photometric quasar-selection technique at low redshift, and
outperforms all other flux-based methods for selecting the medium-redshift
quasars of our primary interest. We make code to reproduce the XDQSO quasar
target selection publicly available
Photometric redshifts and quasar probabilities from a single, data-driven generative model
We describe a technique for simultaneously classifying and estimating the
redshift of quasars. It can separate quasars from stars in arbitrary redshift
ranges, estimate full posterior distribution functions for the redshift, and
naturally incorporate flux uncertainties, missing data, and multi-wavelength
photometry. We build models of quasars in flux-redshift space by applying the
extreme deconvolution technique to estimate the underlying density. By
integrating this density over redshift one can obtain quasar flux-densities in
different redshift ranges. This approach allows for efficient, consistent, and
fast classification and photometric redshift estimation. This is achieved by
combining the speed obtained by choosing simple analytical forms as the basis
of our density model with the flexibility of non-parametric models through the
use of many simple components with many parameters. We show that this technique
is competitive with the best photometric quasar classification
techniques---which are limited to fixed, broad redshift ranges and high
signal-to-noise ratio data---and with the best photometric redshift techniques
when applied to broadband optical data. We demonstrate that the inclusion of UV
and NIR data significantly improves photometric quasar--star separation and
essentially resolves all of the redshift degeneracies for quasars inherent to
the ugriz filter system, even when included data have a low signal-to-noise
ratio. For quasars spectroscopically confirmed by the SDSS 84 and 97 percent of
the objects with GALEX UV and UKIDSS NIR data have photometric redshifts within
0.1 and 0.3, respectively, of the spectroscopic redshift; this amounts to about
a factor of three improvement over ugriz-only photometric redshifts. Our code
to calculate quasar probabilities and redshift probability distributions is
publicly available
The effects of a hot gaseous halo on disc thickening in galaxy minor mergers
We employ hydrodynamical simulations to study the effects of dissipational
gas physics on the vertical heating and thickening of disc galaxies during
minor mergers. For the first time we present a suite of simulations that
includes a diffuse, rotating, cooling, hot gaseous halo, as predicted by
cosmological hydrodynamical simulations as well as models of galaxy formation.
We study the effect of this new gaseous component on the vertical structure of
a Milky Way-like stellar disc during 1:10 and 1:5 mergers. For 1:10 mergers we
find no increased final thin disc scale height compared to the isolated
simulation, leading to the conclusion that thin discs can be present even after
a 1:10 merger if a reasonable amount of hot gas is present. The reason for this
is the accretion of new cold gas, leading to the formation of a massive new
thin stellar disc that dominates the surface brightness profile. In a previous
study, in which we included only cold gas in the disk, we showed that the
presence of cold gas decreased the thickening by a minor merger relative to the
no-gas case. Here, we show that the evolution of the scale height in the
presences of a cooling hot halo is dominated by the formation of the new
stellar disc. In this scenario, the thick disc is the old stellar disc that has
been thickened in a minor merger at z>1, while the thin disc is the new stellar
disc that reforms after this merger. In addition, we study the evolution of the
scale height during a 1:5 merger and find that a thin disc can be present even
after this merger, provided enough hot gas is available. The final scale height
in our simulations depends on the mass of the hot gaseous halo, the efficiency
of the winds and the merger mass ratio. We find post-merger values in the range
0.5<z0<1.0 kpc in good agreement with observational constraints by local
galaxies.Comment: 14 pages, 10 figures, 2 tables, submitted to MNRA
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