3,375 research outputs found
Synthetic Observations of the HI Line in SPH-Simulated Spiral Galaxies
Using the radiative transfer code Torus, we produce spectral-line cubes of
the predicted HI profile from global SPH simulations of spiral galaxies. Torus
grids the SPH galaxy using Adaptive Mesh Refinement, then applies a ray-tracing
method to infer the HI profile along the line(s) of sight. The gridded galaxy
can be observed from any direction, which enables us to model the observed HI
profile for galaxies of any orientation. We can also place the observer inside
the galaxy, to simulate HI observations taken from the Earth's position in the
Milky Way.Comment: 4 pages, 2 figures, conference proceedings for "Panoramic Radio
Astronomy: 1-2 Ghz Research on Galaxy Evolution" June 2-5, 2009 Groninge
Warm HCN, C2H2, and CO in the disk of GV Tau
We present the first high-resolution, ground-based observations of HCN and
C2H2 toward the T Tauri binary star system GV Tau. We detected strong
absorption due to HCN nu_3 and weak C2H2 (nu_3 and nu_2 + (nu_4 + nu_5)^0_+)
absorption toward the primary (GV Tau S) but not the infrared companion. We
also report CO column densities and rotational temperatures, and present
abundances relative to CO of HCN/CO ~0.6% and C2H2/CO ~1.2% and an upper limit
for CH4/CO < 0.37% toward GV Tau S. Neither HCN nor C2H2 were detected toward
the infrared companion and results suggest that abundances may differ between
the two sources.Comment: 23 pages, 6 figures, accepted by Ap
Enhancing local air quality management in Wales to maximise public health awareness, integration, collaboration and impact
Air pollution is a significant public health concern. The UK Local Air Quality Management (LAQM) regime mandates collaborative action to reduce air pollution to protect health. Despite having this aim, LAQM is disconnected from broader public health policy and practice. Several LAQM ‘structure’ and ‘process’ limitations have likely contributed to this unsatisfactory situation and LAQM’s failure to deliver effective ‘outcomes’. Two main shortfalls are to blame: prescribed risk assessment and management processes that are too narrow in public health scope, and a poor recognition of the value contribution that public health bodies and specialists could and should make to support LAQM.With Wales selected as the research study area, this research explored LAQM shortfalls through complementary research strands, framed by a mixed-methods approach and a convergent parallel study design. The first of these research strands – an ecological study – linked air pollution, deprivation and health data to assess associations and determine the merits of broadening the public health scope of LAQM. The second – a Delphi study – formed expert consensus on the role of public health in LAQM, and defined the value added by, and opportunities, barriers and solutions to, increasing public health awareness, integration and collaboration in LAQM. Research outcomes were subsequently mixed, validated and evolved to develop a suite of drivers (and linked recommended enabling actions) to support new public health-driven ways of working in LAQM in Wales.The ecological study found that interactions between air pollution and socio-economic stressors modified and compounded associations with important health outcomes. Thus, there is merit in considering air pollution problems and solutions in the context of broader public health priorities. Further, aligning risk reduction actions with principles of proportionate universalism could achieve greater health gain.Through the Delphi study, experts agreed that public health bodies and specialists could and should do more to support LAQM, and proposed enhanced ways of working around assessing risks, integrating LAQM action with the ‘day job’ (and vice versa), appraising and interpreting evidence, and undertaking research and evaluation. These, together with a better application of core public health skills such as authoritative communications, policy development advocacy, and change leadership, could add value to LAQM.Integrating, validating and evolving this evidence – the latter achieved through a workshop and case study interviews with experts – informed proposals for new public health-driven ways of working in LAQM in Wales. These are underpinned by the primary drivers of risk assessment and management approaches of broader public health scope, stronger public health support, and full integration of LAQM with wider public health policy and practice.In conclusion, this research makes a compelling case for LAQM enhancement through better public health awareness, integration and collaboration. While evidence-based drivers for change can help guide LAQM evolution, stakeholders must still commit to enable and achieve them. The positive impacts resulting from fully connected LAQM and public health policy and practice have the potential to ripple way beyond the LAQM arena to help tackle wider linked public health and wellbeing priorities
Physical properties of a very diffuse HI structure at high Galactic latitude
The main goal of this analysis is to present a new method to estimate the
physical properties of diffuse cloud of atomic hydrogen observed at high
Galactic latitude. This method, based on a comparison of the observations with
fractional Brownian motion simulations, uses the statistical properties of the
integrated emission, centroid velocity and line width to constrain the physical
properties of the 3D density and velocity fields, as well as the average
temperature of HI. We applied this method to interpret 21 cm observations
obtained with the Green Bank Telescope of a very diffuse HI cloud at high
Galactic latitude located in Firback North 1. We first show that the
observations cannot be reproduced solely by highly-turbulent CNM type gas and
that there is a significant contribution of thermal broadening to the line
width observed. To reproduce the profiles one needs to invoke two components
with different average temperature and filling factor. We established that, in
this very diffuse part of the ISM, 2/3 of the column density is made of WNM and
1/3 of thermally unstable gas (T ~2600 K). The WNM gas is mildly supersonic
(~1) and the unstable phase is definitely sub-sonic (~0.3). The density
contrast (i.e., the standard deviation relative to the mean of density
distribution) of both components is close to 0.8. The filling factor of the WNM
is 10 times higher that of the unstable gas, which has a density structure
closer to what would be expected for CNM gas. This field contains a signature
of CNM type gas at a very low level (N_H ~ 3 x 10^19) which could have been
formed by a convergent flow of WNM gas.Comment: 13 pages, 12 figures, accepted for publication in A&
Evolution of spin correlations in SrDy2O4 in an applied magnetic field
The development of short- and long-range magnetic order induced in a
frustrated zig-zag ladder compound SrDy2O4 by an applied field is studied using
neutron diffraction techniques. In zero field, SrDy2O4 lacks long-range
magnetic order down to temperatures as low as 60 mK, and the observed powder
neutron diffraction (PND) patterns are dominated by very broad diffuse
scattering peaks. Single crystal neutron diffraction reveals that the
zero-field magnetic structure consists of a collection of antiferromagnetic
chains running along the c axis and that there is very little correlation
between the chains in the ab plane. In an applied magnetic field, the broad
diffuse scattering features in PND are gradually replaced by much sharper
peaks, however, the pattern remains rather complex, reflecting the highly
anisotropic nature of SrDy2O4. Single crystal neutron diffraction shows that a
moderate field applied along the b axis induces an up-up-down magnetic order
associated with a 1/3-magnetisation plateau, in which magnetic correlation
length in the ab plane is significantly increased, but it nevertheless remains
finite. The resolution limited k = 0 peaks associated with a ferromagnetic
arrangement appear in powder and single crystal neutron diffraction patterns in
fields of 2.5 T and above.Comment: 10 pages, 11 figure
Antarctic Analog for Dilational Bands on Europa
Europa's surface shows signs of extension, which is revealed as lithospheric dilation expressed along ridges, dilational bands and ridged bands. Ridges, the most common tectonic feature on Europa, comprise a central crack flanked by two raised banks a few hundred meters high on each side. Together these three classes may represent a continuum of formation. In Tufts' Dilational Model ridge formation is dominated by daily tidal cycling of a crack, which can be superimposed with regional secular dilation. The two sources of dilation can combine to form the various band morphologies observed. New GPS data along a rift on the Ross Ice Shelf, Antarctica is a suitable Earth analog to test the framework of Tufts' Dilational Model. As predicted by Tufts' Dilational Model, tensile failures in the Ross Ice Shelf exhibit secular dilation, upon which a tidal signal can be seen. From this analog we conclude that Tufts' Dilational Model for Europan ridges and bands may be credible and that the secular dilation is most likely from a regional source and not tidally driven
Analysis of Ice Plains of Filchner/Ronne Ice Shelf Using ICESat Data
We use repeat-track laser altimeter data from the Ice, Cloud, and land Elevation Satellite (ICESat) to map the grounding zone of Filchner/Ronne Ice Shelf (FRIS), Antarctica. Repeated passes of ICESat reveal ice flexure in the grounding zone occurs as the ice shelf responds to ocean height changes due primarily to tides. In the course of our mapping, we have confirmed or identified three major "ice plains", regions of low surface slope near the GZ where the ice is close to hydrostatic equilibrium: one on Institute Ice Stream, another to its east, and another west of Foundation Ice Stream. The vertical information from repeated ICESat tracks enables us to study the topography and flexure characteristics across these three ice plains, and we use this to develop a classification scheme for ice plains based on their surface topography and their state of flotation. We show that one of these ice plains indicates changes in lateral extent on short time-scales, depending on the state of the ocean tide. Understanding the location and nature of ice plains is important for ice sheet modeling, since they add uncertainty to the absolute boundary between floating and grounded ice
A Range Correction for Icesat and Its Potential Impact on Ice-sheet Mass Balance Studies
We report on a previously undocumented range error in NASA's Ice, Cloud and land Elevation Satellite (ICESat) that degrades elevation precision and introduces a small but significant elevation trend over the ICESat mission period. This range error (the Gaussian-Centroid or 'G-C'offset) varies on a shot-to-shot basis and exhibits increasing scatter when laser transmit energies fall below 20 mJ. Although the G-C offset is uncorrelated over periods less than1 day, it evolves over the life of each of ICESat's three lasers in a series of ramps and jumps that give rise to spurious elevation trends of 0.92 to 1.90 cm yr(exp 1), depending on the time period considered. Using ICESat data over the Ross and Filchner-Ronne ice shelves we show that (1) the G-C offset introduces significant biases in ice-shelf mass balance estimates, and (2) the mass balance bias can vary between regions because of different temporal samplings of ICESat.We can reproduce the effect of the G-C offset over these two ice shelves by fitting trends to sample-weighted mean G-C offsets for each campaign, suggesting that it may not be necessary to fully repeat earlier ICESat studies to determine the impact of the G-C offset on ice-sheet mass balance estimates
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