93 research outputs found
The properties of pre-stellar discs in isolated and multiple pre-stellar systems
We present high-resolution 3D smoothed particle hydrodynamics simulations of the formation and evolution of protostellar discs in a turbulent molecular cloud. Using a piecewise polytropic equation of state, we perform two sets of simulations. In both cases, we find that isolated systems undergo a fundamentally different evolution than members of binary or multiple systems. When formed, isolated systems must accrete mass and increase their specific angular momentum, leading to the formation of massive, extended discs, which undergo strong gravitational instabilities and are susceptible to disc fragmentation. Fragments with initial masses of 5.5, 7.4 and 12 Mjup are produced in our simulations. In binaries and small clusters, we observe that due to competition for material from the parent core, members do not accrete significant amounts of high specific angular momentum gas relative to isolated systems. We find that discs in multiple systems are strongly self-gravitating but that they are stable against fragmentation due to disc truncation and mass profile steeping by tides, accretion of high specific angular momentum gas by other members and angular momentum being redirected into members' orbits. In general, we expect disc fragmentation to be less likely in clusters and to be more a feature of isolated system
The writing on the wall: the concealed communities of the East Yorkshire horselads
This paper examines the graffiti found within late nineteenth and early-twentieth century farm buildings in the Wolds of East Yorkshire. It suggests that the graffiti were created by a group of young men at the bottom of the social hierarchy - the horselads – and was one of the ways in which they constructed a distinctive sense of communal identity, at a particular stage in their lives. Whilst it tells us much about changing agricultural regimes and social structures, it also informs us about experiences and attitudes often hidden from official histories and biographies. In this way, the graffiti are argued to inform our understanding, not only of a concealed community, but also about their hidden histor
Insider and Outsider Perspectives: Reflections on Researcher Identities in Research with Lesbian and Bisexual Women
© Taylor & Francis Group, LLC. In this article, we reflect on the concept of the insider and the outsider in qualitative research. We draw on our different experiences of conducting research with lesbian and bisexual women, using our PhD research projects as case studies to consider our similarities to and differences from our research participants. We highlight the impact that insider/outsider status can have at each stage of the research process, from deciding on a research topic, the design of materials, communicating with and recruiting participants through to data collection and analysis. We discuss the advantages and disadvantages of both insider and outsider positions and reflect on our own experiences. We conclude that, in reality, insider/outsider boundaries may be more blurred than the terms imply and highlight some of the ethical considerations that need to be taken into consideration during qualitative research
Photometric identification of blue horizontal branch stars
We investigate the performance of some common machine learning techniques in
identifying BHB stars from photometric data. To train the machine learning
algorithms, we use previously published spectroscopic identifications of BHB
stars from SDSS data. We investigate the performance of three different
techniques, namely k nearest neighbour classification, kernel density
estimation and a support vector machine (SVM). We discuss the performance of
the methods in terms of both completeness and contamination. We discuss the
prospect of trading off these values, achieving lower contamination at the
expense of lower completeness, by adjusting probability thresholds for the
classification. We also discuss the role of prior probabilities in the
classification performance, and we assess via simulations the reliability of
the dataset used for training. Overall it seems that no-prior gives the best
completeness, but adopting a prior lowers the contamination. We find that the
SVM generally delivers the lowest contamination for a given level of
completeness, and so is our method of choice. Finally, we classify a large
sample of SDSS DR7 photometry using the SVM trained on the spectroscopic
sample. We identify 27,074 probable BHB stars out of a sample of 294,652 stars.
We derive photometric parallaxes and demonstrate that our results are
reasonable by comparing to known distances for a selection of globular
clusters. We attach our classifications, including probabilities, as an
electronic table, so that they can be used either directly as a BHB star
catalogue, or as priors to a spectroscopic or other classification method. We
also provide our final models so that they can be directly applied to new data.Comment: To appear in A&A. 19 pages, 22 figures. Tables 7, A3 and A4 available
electronically onlin
On The Possibility of Enrichment and Differentiation in Gas Giants During Birth by Disk Instability
We investigate the coupling between rock-size solids and gas during the
formation of gas giant planets by disk fragmentation in the outer regions of
massive disks. In this study, we use three-dimensional radiative hydrodynamics
simulations and model solids as a spatial distribution of particles. We assume
that half of the total solid fraction is in small grains and half in large
solids. The former are perfectly entrained with the gas and set the opacity in
the disk, while the latter are allowed to respond to gas drag forces, with the
back reaction on the gas taken into account. To explore the maximum effects of
gas-solid interactions, we first consider 10cm-size particles. We then compare
these results to a simulation with 1 km-size particles, which explores the
low-drag regime. We show that (1) disk instability planets have the potential
to form large cores due to aerodynamic capturing of rock-size solids in spiral
arms before fragmentation; (2) that temporary clumps can concentrate tens of
of solids in very localized regions before clump disruption; (3)
that the formation of permanent clumps, even in the outer disk, is dependent on
the grain-size distribution, i.e., the opacity; (4) that nonaxisymmetric
structure in the disk can create disk regions that have a solids-to-gas ratio
greater than unity; (5) that the solid distribution may affect the
fragmentation process; (6) that proto-gas giants and proto-brown dwarfs can
start as differentiated objects prior to the H collapse phase; (7) that
spiral arms in a gravitationally unstable disk are able to stop the inward
drift of rock-size solids, even redistributing them to larger radii; and, (8)
that large solids can form spiral arms that are offset from the gaseous spiral
arms. We conclude that planet embryo formation can be strongly affected by the
growth of solids during the earliest stages of disk accretion.Comment: Accepted by ApJ. 55 pages including 24 figures. In response to
comments from the referee, we have included a new simulation with km-size
objects and have revised some discussions and interpretations. Major
conclusions remain unchanged, and new conclusions have been added in response
to the new ru
Lesbian and bisexual women's experiences of sexuality-based discrimination and their appearance concerns
Lesbian and bisexual women frequently experience sexuality-based discrimination, which is often based on others' judgements about their appearance. This short article aims to explore whether there is a relationship between lesbian and bisexual women's experiences of sexuality-based discrimination and their satisfaction with the way that they look. Findings from an online survey suggest that discrimination is negatively related to appearance satisfaction for lesbian women, but not for bisexual women. It is argued that this difference exists because lesbian appearance norms are more recognisable and distinctive than bisexual women's appearance norms
The Properties of Prestellar Discs in Isolated and Multiple Prestellar Systems
We present high-resolution 3D smoothed particle hydrodynamics simulations of
the formation and evolution of protostellar discs in a turbulent molecular
cloud. Using a piecewise polytropic equation of state, we perform two sets of
simulations. In both cases we find that isolated systems undergo a
fundamentally different evolution than members of binary or multiple systems.
When formed, isolated systems must accrete mass and increase their specific
angular momentum, leading to the formation of massive, extended discs, which
undergo strong gravitational instabilities and are susceptible to disc
fragmentation. Fragments with initial masses of 5.5 M_jup, 7.4 M_jup and 12
M_jup are produced in our simulations. In binaries and small clusters, we
observe that due to competition for material from the parent core, members do
not accrete significant amounts of high specific angular momentum gas relative
to isolated systems. We find that discs in multiple systems are strongly
self-gravitating but that they are stable against fragmentation due to disc
truncation and mass profile steeping by tides, accretion of high specific
angular momentum gas by other members, and angular momentum being redirected
into members' orbits. In general, we expect disc fragmentation to be less
likely in clusters and to be more a feature of isolated systems.Comment: 15 pages, 21 figures. Accepted for publication in MNRA
Atomically dispersed Pt-N-4 sites as efficient and selective electrocatalysts for the chlorine evolution reaction
Chlorine evolution reaction (CER) is a critical anode reaction in chlor-alkali electrolysis. Although precious metal-based mixed metal oxides (MMOs) have been widely used as CER catalysts, they suffer from the concomitant generation of oxygen during the CER. Herein, we demonstrate that atomically dispersed Pt-N-4 sites doped on a carbon nanotube (Pt-1/CNT) can catalyse the CER with excellent activity and selectivity. The Pt-1/CNT catalyst shows superior CER activity to a Pt nanoparticle-based catalyst and a commercial Ru/Ir-based MMO catalyst. Notably, Pt-1/CNT exhibits near 100% CER selectivity even in acidic media, with low Cl- concentrations (0.1M), as well as in neutral media, whereas the MMO catalyst shows substantially lower CER selectivity. In situ electrochemical X-ray absorption spectroscopy reveals the direct adsorption of Cl- on Pt-N-4 sites during the CER. Density functional theory calculations suggest the PtN4C12 site as the most plausible active site structure for the CER
Clumps in the Outer Disk by Disk Instability: Why They are Initially Gas Giants and the Legacy of Disruption
We explore the initial conditions for fragments in the extended regions
( AU) of gravitationally unstable disks. We combine analytic
estimates for the fragmentation of spiral arms with 3D SPH simulations to show
that initial fragment masses are in the gas giant regime. These initial
fragments will have substantial angular momentum, and should form disks with
radii of a few AU. We show that clumps will survive for multiple orbits before
they undergo a second, rapid collapse due to H dissociation and that it is
possible to destroy bound clumps by transporting them into the inner disk. The
consequences of disrupted clumps for planet formation, dust processing, and
disk evolution are discussed. We argue that it is possible to produce
Earth-mass cores in the outer disk during the earliest phases of disk
evolution.Comment: Accepted for publication in Icarus. The arguments have been greatly
expanded (from v1) to address comments by the referee
Estimation of TFP growth:a semiparametric smooth coefficient approach
This article uses a semiparametric smooth coefficient model (SPSCM) to estimate TFP growth and its components (scale and technical change). The SPSCM is derived from a nonparametric specification of the production technology represented by an input distance function (IDF), using a growth formulation. The functional coefficients of the SPSCM come naturally from the model and are fully flexible in the sense that no functional form of the underlying production technology is used to derive them. Another advantage of the SPSCM is that it can estimate bias (input and scale) in technical change in a fully flexible manner. We also used a translog IDF framework to estimate TFP growth components. A panel of U.S. electricity generating plants for the period 1986–1998 is used for this purpose. Comparing estimated TFP growth results from both parametric and semiparametric models against the Divisia TFP growth, we conclude that the SPSCM performs the best in tracking the temporal behavior of TFP growth
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