93 research outputs found
Bloodshed, baptism, beer: racial capitalism and settler colonialism on the medieval Baltic
Scholarly and popular usage of the term âracial capitalismâ has increased exponentially over the past decade, but the validity and implications of its use remain hotly contested. The late Cedric Robinson is the undisputed popularizer of this phrase and is referenced widely by both the sloganâs detractors and proponents. Despite this, little work has been done to engage with the core of his argument about racial capitalism: that capitalism is inalienably racial due to the racialism of the medieval European societies that spawned it. Debates over Robinsonâs ideas have thus disregarded the substance of his deployment of the phrase and eliminated his historicist critique of the European social sciences. This paper attempts to correct this lacuna through a case study of racial extractivism in a colonial region of medieval Europe: the German Ordenstaat of Livonia. I draw on the methodologies of radical historical geographers within Black Studies to generate a synthetic analysis of regional historical literatures about premodern Catholic colonialism. I find that structural racism was central in funding and organizing the institutional antecedents of the capitalist world-system which emerged in the 16th century. Ultimately, I argue that Robinsonâs historicist critique disrupts many ontological assumptions about the motivating forces, developmental trends, and leading protagonists of capitalism as a theoretical object
A Far-infrared Characterization of 24 ÎŒm Selected Galaxies at 0 < z < 2.5 using Stacking at 70 ÎŒm and 160 ÎŒm in the COSMOS Field
We present a study of the average properties of luminous infrared galaxies detected directly at 24 ÎŒm in the COSMOS field using a median stacking analysis at 70 ÎŒm and 160 ÎŒm. Over 35,000 sources spanning 0 †z †3 and 0.06 mJy †S_(24) †3.0 mJy are stacked, divided into bins of both photometric redshift and 24 ÎŒm flux. We find no correlation of S_(70)/S_(24) flux density ratio with S_(24), but find that galaxies with higher S_(24) have a lower S_(160)/S_(24) flux density ratio. These observed ratios suggest that 24 ÎŒm selected galaxies have warmer spectral energy distributions (SEDs) at higher mid-IR fluxes, and therefore have a possible higher fraction of active galactic nuclei. Comparisons of the average S_(70)/S_(24) and S_(160)/S_(24) colors with various empirical templates and theoretical models show that the galaxies detected at 24 ÎŒm are consistent with "normal" star-forming galaxies and warm mid-IR galaxies such as Mrk 231, but inconsistent with heavily obscured galaxies such as Arp 220. We perform a Ï^2 analysis to determine best-fit galactic model SEDs and total IR luminosities for each of our bins. We compare our results to previous methods of estimating L IR and find that previous methods show considerable agreement over the full redshift range, except for the brightest S_(24) sources, where they overpredict the bolometric IR luminosity at high redshift, most likely due to their warmer dust SED. We present a table that can be used as a more accurate and robust method for estimating bolometric infrared luminosity from 24 ÎŒm flux densities
Obscuration-dependent evolution of Active Galactic Nuclei
We aim to constrain the evolution of AGN as a function of obscuration using
an X-ray selected sample of AGN from a multi-tiered survey including
the CDFS, AEGIS-XD, COSMOS and XMM-XXL fields. The spectra of individual X-ray
sources are analysed using a Bayesian methodology with a physically realistic
model to infer the posterior distribution of the hydrogen column density and
intrinsic X-ray luminosity. We develop a novel non-parametric method which
allows us to robustly infer the distribution of the AGN population in X-ray
luminosity, redshift and obscuring column density, relying only on minimal
smoothness assumptions. Our analysis properly incorporates uncertainties from
low count spectra, photometric redshift measurements, association
incompleteness and the limited sample size. We find that obscured AGN with
account for of the number
density and luminosity density of the accretion SMBH population with , averaged over cosmic time. Compton-thick AGN account
for approximately half the number and luminosity density of the obscured
population, and of the total. We also find evidence that the
evolution is obscuration-dependent, with the strongest evolution around
. We highlight this by measuring the
obscured fraction in Compton-thin AGN, which increases towards , where
it is higher than the local value. In contrast the fraction of
Compton-thick AGN is consistent with being constant at ,
independent of redshift and accretion luminosity. We discuss our findings in
the context of existing models and conclude that the observed evolution is to
first order a side-effect of anti-hierarchical growth.Comment: Published in Ap
Evolution of the Quasar Luminosity Function Over 3 < z < 5 in the COSMOS Survey Field
We investigate the high-redshift quasar luminosity function (QLF) down to an
apparent magnitude of I(AB) = 25 in the Cosmic Evolution Survey (COSMOS).
Careful analysis of the extensive COSMOS photometry and imaging data allows us
to identify and remove stellar and low-redshift contaminants, enabling a
selection that is nearly complete for type-1 quasars at the redshifts of
interest. We find 155 likely quasars at z > 3.1, 39 of which have prior
spectroscopic confirmation. We present our sample in detail and use these
confirmed and likely quasars to compute the rest-frame UV QLF in the redshift
bins 3.1 < z < 3.5 and 3.5 < z < 5. The space density of faint quasars
decreases by roughly a factor of four from z \sim 3.2 to z \sim 4, with
faint-end slopes of {\beta} \sim -1.7 at both redshifts. The decline in space
density of faint optical quasars at z > 3 is similar to what has been found for
more luminous optical and X-ray quasars. We compare the rest-frame UV
luminosity functions found here with the X-ray luminosity function at z > 3,
and find that they evolve similarly between z \sim 3.2 and z \sim 4; however,
the different normalizations imply that roughly 75% of X-ray bright active
galactic nuclei (AGN) at z \sim 3 - 4 are optically obscured. This fraction is
higher than found at lower redshift and may imply that the obscured, type-2
fraction continues to increase with redshift at least to z \sim 4. Finally, the
implications of the results derived here for the contribution of quasars to
cosmic reionization are discussed.Comment: Accepted for publication in ApJ. 17 pages, 14 figure
SDSS-IV eBOSS Spectroscopy of X-ray and WISE AGN in Stripe 82X: Overview of the Demographics of X-ray and Mid-Infrared Selected Active Galactic Nuclei
We report the results of a Sloan Digital Sky Survey-IV eBOSS program to
target X-ray sources and mid-infrared-selected WISE AGN candidates in a 36.8
deg region of Stripe 82. About half this survey (15.6 deg) covers the
largest contiguous portion of the Stripe 82 X-ray survey. This program
represents the largest spectroscopic survey of AGN candidates selected solely
by their WISE colors. We combine this sample with X-ray and WISE AGN in the
field identified via other sources of spectroscopy, producing a catalog of 4847
sources that is 82% complete to . Based on X-ray luminosities or WISE
colors, 4730 of these sources are AGN, with a median sample redshift of
. About 30% of the AGN are optically obscured (i.e., lack broad lines
in their optical spectra). BPT analysis, however, indicates that 50% of the
WISE AGN at have emission line ratios consistent with star-forming
galaxies, so whether they are buried AGN or star-forming galaxy contaminants is
currently unclear. We find that 61% of X-ray AGN are not selected as MIR AGN,
with 22% of X-ray AGN undetected by WISE. Most of these latter AGN have high
X-ray luminosities ( erg s), indicating that MIR
selection misses a sizable fraction of the highest luminosity AGN, as well as
lower luminosity sources where AGN heated dust is not dominating the MIR
emission. Conversely, 58% of WISE AGN are undetected by X-rays, though we
do not find that they are preferentially redder than the X-ray detected WISE
AGN.Comment: resubmitted to AAS Journals after addressing referee's comments. 21
pages, 17 figures, 5 Tables. Tables 4 & 5 summarize the demographics of the
sample. Figures 15 & 16 compare AGN populations from X-ray and MIR selection.
The catalog (in fits format) can be downloaded at
http://doi.org/10.5281/zenodo.257735
Star Formation at From the Spitzer Large Area Survey with Hyper-Suprime-Cam (SPLASH)
Using the first 50% of data collected for the Spitzer Large Area Survey with
Hyper-Suprime-Cam (SPLASH) observations on the 1.8 deg Cosmological
Evolution Survey (COSMOS) we estimate the masses and star formation rates of
3398 star-forming galaxies at with a
substantial population up to . We find that the
strong correlation between stellar mass and star formation rate seen at lower
redshift (the "main sequence" of star-forming galaxies) extends to .
The observed relation and scatter is consistent with a continued increase in
star formation rate at fixed mass in line with extrapolations from
lower-redshift observations. It is difficult to explain this continued
correlation, especially for the most massive systems, unless the most massive
galaxies are forming stars near their Eddington-limited rate from their first
collapse. Furthermore, we find no evidence for moderate quenching at higher
masses, indicating quenching either has not occurred prior to or
else occurs rapidly, so that few galaxies are visible in transition between
star-forming and quenched.Comment: ApJL, accepte
A Far-IR Characterization of 24 micron Selected Galaxies at 0<z<2.5 using Stacking at 70 microns and 160 microns in the COSMOS Field
We present a study of the average properties of luminous infrared galaxies
detected directly at 24 m in the COSMOS field using a median stacking
analysis at 70m and 160 m. Over 35000 sources spanning 0<z<3 and 0.06
mJy<S_{24}<3.0 mJy are stacked, divided into bins of both photometric redshift
and 24 m flux. We find no correlation of flux density
ratio with , but find that galaxies with higher have a lower
flux density ratio. These observed ratios suggest that 24
m selected galaxies have warmer SEDs at higher mid-IR fluxes, and
therefore have a possible higher fraction of AGN. Comparisons of the average
and colors with various empirical templates
and theoretical models show that the galaxies detected at 24 m are
consistent with "normal" star-forming galaxies and warm mid-IR galaxies such as
Mrk 231, but inconsistent with heavily obscured galaxies such as Arp 220. We
perform a analysis to determine best fit galactic model SEDs and
total IR luminosities for each of our bins. We compare our results to previous
methods of estimating and find that previous methods show
considerable agreement over the full redshift range, except for the brightest
sources, where previous methods overpredict the bolometric IR
luminosity at high redshift, most likely due to their warmer dust SED. We
present a table that can be used as a more accurate and robust method for
estimating bolometric infrared luminosity from 24 m flux densities.Comment: 21 pages, 6 figures, accepted for publication in the Astrophysical
Journa
The Multiwavelength Survey by Yale-Chile (MUSYC): Deep Medium-Band optical imaging and high quality 32-band photometric redshifts in the ECDF-S
We present deep optical 18-medium-band photometry from the Subaru telescope
over the ~30' x 30' Extended Chandra Deep Field-South (ECDF-S), as part of the
Multiwavelength Survey by Yale-Chile (MUSYC). This field has a wealth of
ground- and space-based ancillary data, and contains the GOODS-South field and
the Hubble Ultra Deep Field. We combine the Subaru imaging with existing
UBVRIzJHK and Spitzer IRAC images to create a uniform catalog. Detecting
sources in the MUSYC BVR image we find ~40,000 galaxies with R_AB<25.3, the
median 5 sigma limit of the 18 medium bands. Photometric redshifts are
determined using the EAZY code and compared to ~2000 spectroscopic redshifts in
this field. The medium band filters provide very accurate redshifts for the
(bright) subset of galaxies with spectroscopic redshifts, particularly at 0.1 <
z 3.5. For 0.1 < z < 1.2, we find a 1 sigma scatter in \Delta
z/(1+z) of 0.007, similar to results obtained with a similar filter set in the
COSMOS field. As a demonstration of the data quality, we show that the red
sequence and blue cloud can be cleanly identified in rest-frame color-magnitude
diagrams at 0.1 < z < 1.2. We find that ~20% of the red-sequence-galaxies show
evidence of dust-emission at longer rest-frame wavelengths. The reduced images,
photometric catalog, and photometric redshifts are provided through the public
MUSYC website.Comment: 19 pages, 14 image
Evolution of the bar fraction in COSMOS: quantifying the assembly of the Hubble sequence
We have analyzed the redshift-dependent fraction of galactic bars over 0.2 < z < 0.84 in 2157 luminous face-on spiral galaxies from the COSMOS 2 deg^2 field. Our sample is an order of magnitude larger than that used in any previous investigation, and is based on substantially deeper imaging data than that available from earlier wide-area studies of high-redshift galaxy morphology. We find that the fraction of barred spirals declines rapidly with redshift. Whereas in the local universe about 65% of luminous spiral galaxies contain bars (SB+SAB), at z ~ 0.84 this fraction drops to about 20%. Over this redshift range the fraction of strong bars (SBs) drops from about 30% to under 10%. It is clear that when the universe was half its present age, the census of galaxies on the Hubble sequence was fundamentally different from that of the present day. A major clue to understanding this phenomenon has also emerged from our analysis, which shows that the bar fraction in spiral galaxies is a strong function of stellar mass, integrated color and bulge prominence. The bar fraction in very massive, luminous spirals is about constant out to z ~ 0.84, whereas for the low-mass, blue spirals it declines significantly with redshift beyond z = 0.3. There is also a slight preference for bars in bulge-dominated systems at high redshifts that may be an important clue toward the coevolution of bars, bulges, and black holes. Our results thus have important ramifications for the processes responsible for galactic downsizing, suggesting that massive galaxies matured early in a dynamical sense, and not just as a result of the regulation of their star formation rate
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