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  • 1
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    STARBENCH: the D-type expansion of an H II region (2015)
    Oxford University Press
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    Publication Date: 2015-08-27
    Description: starbench is a project focused on benchmarking and validating different star formation and stellar feedback codes. In this first starbench paper we perform a comparison study of the D-type expansion of an H ii region. The aim of this work is to understand the differences observed between the 12 participating numerical codes against the various analytical expressions examining the D-type phase of H ii region expansion. To do this, we propose two well-defined tests which are tackled by 1D and 3D grid- and smoothed particle hydrodynamics-based codes. The first test examines the ‘early phase’ D-type scenario during which the mechanical pressure driving the expansion is significantly larger than the thermal pressure of the neutral medium. The second test examines the ‘late phase’ D-type scenario during which the system relaxes to pressure equilibrium with the external medium. Although they are mutually in excellent agreement, all 12 participating codes follow a modified expansion law that deviates significantly from the classical Spitzer solution in both scenarios. We present a semi-empirical formula combining the two different solutions appropriate to both early and late phases that agrees with high-resolution simulations to  2 per cent. This formula provides a much better benchmark solution for code validation than the Spitzer solution. The present comparison has validated the participating codes and through this project we provide a data set for calibrating the treatment of ionizing radiation hydrodynamics codes.
    Print ISSN: 0035-8711
    Electronic ISSN: 1365-2966
    Topics: Physics
    Published by Oxford University Press
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  • 2
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    H, He-like recombination spectra - I. l-changing collisions for hydrogen (2016)
    Oxford University Press
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    Publication Date: 2016-05-12
    Description: Hydrogen and helium emission lines in nebulae form by radiative recombination. This is a simple process which, in principle, can be described to very high precision. Ratios of He i and H i emission lines can be used to measure the He + /H + abundance ratio to the same precision as the recombination rate coefficients. This paper investigates the controversy over the correct theory to describe dipole l -changing collisions ( nl -〉 nl ' =  l  ± 1) between energy-degenerate states within an n -shell. The work of Pengelly & Seaton has, for half-a-century, been considered the definitive study which ‘solved’ the problem. Recent work by Vrinceanu et al. recommended the use of rate coefficients from a semiclassical approximation which are nearly an order of magnitude smaller than those of Pengelly & Seaton, with the result that significantly higher densities are needed for the nl populations to come into local thermodynamic equilibrium. Here, we compare predicted H i emissivities from the two works and find widespread differences, of up to 10 per cent. This far exceeds the 1 per cent precision required to obtain the primordial He/H abundance ratio from observations so as to constrain big bang cosmologies. We recommend using the rate coefficients of Pengelly & Seaton for l -changing collisions, to describe the H recombination spectrum, based-on their quantum mechanical representation of the long-range dipole interaction.
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    Electronic ISSN: 1365-2966
    Topics: Physics
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  • 3
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    Ultraviolet emission lines of Si II in cool star and solar spectra (2015)
    Oxford University Press
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    Publication Date: 2015-12-01
    Description: Recent atomic physics calculations for Si ii are employed within the cloudy modelling code to analyse Hubble Space Telescope ( HST ) STIS ultraviolet spectra of three cool stars, β Geminorum, α Centauri A and B, as well as previously published HST /GHRS observations of α Tau, plus solar quiet Sun data from the High Resolution Telescope and Spectrograph. Discrepancies found previously between theory and observation for line intensity ratios involving the 3s 2 3p 2 P J –3s3p 2 4 P $_{J^{\prime }}$ intercombination multiplet of Si ii at ~ 2335 Å are significantly reduced, as are those for ratios containing the 3s 2 3p 2 P J –3s3p 2 2 D $_{J^{\prime }}$ transitions at ~1816 Å. This is primarily due to the effect of the new Si ii transition probabilities. However, these atomic data are not only very different from previous calculations, but also show large disagreements with measurements, specifically those of Calamai et al. for the intercombination lines. New measurements of transition probabilities for Si ii are hence urgently required to confirm (or otherwise) the accuracy of the recently calculated values. If the new calculations are confirmed, then a long-standing discrepancy between theory and observation will have finally been resolved. However, if the older measurements are found to be correct, then the agreement between theory and observation is simply a coincidence and the existing discrepancies remain.
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    Topics: Physics
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  • 4
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    Collisional excitation of [C II], [O I] and CO in massive galaxies (2015)
    Oxford University Press
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    Publication Date: 2015-11-28
    Description: Many massive galaxies at the centres of relaxed galaxy clusters and groups have vast reservoirs of warm (~10 000 K) and cold (100 K) gas. In many such low-redshift systems this gas is lifted into the hot interstellar medium in filamentary structures, which are long lived and are typically not forming stars. Two important questions are how far do these reservoirs cool and if cold gas is abundant what is the cause of the low star formation efficiency? Heating and excitation of the filaments from collisions and mixing of hot particles in the surrounding X-ray gas describes well the optical and near infrared line ratios observed in the filaments. In this paper we examine the theoretical properties of dense, cold clouds emitting in the far infrared and sub-millimetre through the bright lines of [C  ii ] 157 μm , [O  i ] 63 μm and CO, exposed to such energetic ionizing particles. We find that optical depth effects and thermal pressure support alone cannot account for the line ratios; however, a very modest additional pressure support can fit the observed [O  i ] 63 μm/[C  ii ] 157 μm line ratios by decreasing the density of the gas. This may also help stabilize the filaments against collapse leading to the low rates of star formation. We make predictions for the line ratios expected from cold gas under these conditions and present diagnostic diagrams for comparison with further observations. We provide our code as an Appendix.
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    Topics: Physics
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  • 5
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    Accurate determination of the free-free Gaunt factor - II. Relativistic Gaunt factors (2015)
    Oxford University Press
    Details
    Publication Date: 2015-03-29
    Description: When modelling an ionized plasma, all spectral synthesis codes need the thermally averaged free–free Gaunt factor defined over a very wide range of parameter space in order to produce an accurate prediction for the spectrum. Until now no data set exists that would meet these needs completely. We have therefore produced a table of relativistic Gaunt factors over a much wider range of parameter space than has ever been produced before. We present tables of the thermally averaged Gaunt factor covering the range 10 log 2  = –6 to 10 and 10 log u  = –16 to 13 for all atomic numbers Z  = 1 through 36. The data were calculated using the relativistic Bethe–Heitler–Elwert (BHE) approximation and were subsequently merged with accurate non-relativistic results in those parts of the parameter space where the BHE approximation is not valid. These data will be incorporated in the next major release of the spectral synthesis code cloudy . We also produced tables of the frequency integrated Gaunt factor covering the parameter space 10 log 2  = –6 to +10 for all values of Z between 1 and 36. All the data presented in this paper are available online.
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    Electronic ISSN: 1365-2966
    Topics: Physics
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  • 6
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    Radiative cooling II: effects of density and metallicity (2014)
    Oxford University Press
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    Publication Date: 2014-04-19
    Description: This work follows Lykins et al. discussion of classic plasma cooling function at low density and solar metallicity. Here, we focus on how the cooling function changes over a wide range of density ( n H 〈10 12 cm –3 ) and metallicity ( Z  〈 30 Z ). We find that high densities enhance the ionization of elements such as hydrogen and helium until they reach local thermodynamic equilibrium. By charge transfer, the metallicity changes the ionization of hydrogen when it is partially ionized. We describe the total cooling function as a sum of four parts: those due to H&He, the heavy elements, electron–electron bremsstrahlung and grains. For the first three parts, we provide a low-density limit cooling function, a density dependence function, and a metallicity-dependent function. These functions are given with numerical tables and analytical fit functions. We discuss grain cooling only in the interstellar medium case. We then obtain a total cooling function that depends on density, metallicity and temperature. As expected, collisional de-excitation suppresses the heavy elements cooling. Finally, we provide a function giving the electron fraction, which can be used to convert the cooling function into a cooling rate.
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    Electronic ISSN: 1365-2966
    Topics: Physics
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  • 7
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    Implications of coronal line emission in NGC 4696 (2014)
    Oxford University Press
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    Publication Date: 2014-11-21
    Description: We announce a new facility in the spectral code cloudy that enables tracking the evolution of a cooling parcel of gas with time. For gas cooling from temperatures relevant to galaxy clusters, earlier calculations estimated the [Fe  xiv ] 5303/[Fe  x ] 6375 luminosity ratio, a critical diagnostic of a cooling plasma, to slightly less than unity. By contrast, our calculations predict a ratio of ~3. We revisit recent optical coronal line observations along the X-ray cool arc around NGC 4696 by Canning et al., which detected [Fe  x ] 6375, but not [Fe  xiv ] 5303. We show that these observations are not consistent with predictions of cooling flow models. Differential extinction could in principle account for the observations, but it requires extinction levels ( A V  〉 3.625) incompatible with previous observations. The non-detection of [Fe  xiv ] implies a temperature ceiling of 2.1 million K. Assuming cylindrical geometry and transonic turbulent pressure support, we estimate the gas mass at ~1 million M . The coronal gas is cooling isochorically. We propose that the coronal gas has not condensed out of the intracluster medium, but instead is the conductive or mixing interface between the X-ray plume and the optical filaments. We present a number of emission lines that may be pursued to test this hypothesis and constrain the amount of intermediate-temperature gas in the system.
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    Topics: Physics
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  • 8
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    Dynamics and metallicity of far-infrared selected galaxies (2014)
    Oxford University Press
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    Publication Date: 2014-08-13
    Description: We present near-infrared integral field spectroscopy of 10 Herschel selected galaxies at z  ~ 1.5. From detailed mapping of the Hα and [N ii ] emission lines, we trace the dynamics, star formation rates, metallicities and also investigate gas fractions for these galaxies. For a few galaxies, the distribution of star formation as traced by Hα only traces a small fraction of the stellar disc, which could be tracing recent minor merging events. The rest-frame ultraviolet (UV) continuum emission often has a distribution completely different from Hα, which warns about the use of UV-SED (spectral energy distribution) based star formation tracers in these systems. Our analysis of galaxy dynamics shows that minor dynamical disruptions (e.g. minor merging) are generally not enough to cause a deviation from the established ‘main-sequence’ relation. Most galaxies are found to follow the fundamental metallicity relation (FMR), although with large scatter. One galaxy (a small satellite galaxy of a massive companion) is found to deviate strongly from the FMR. This deviation is in nice agreement with the correlation recently discovered in local galaxies between gas metallicity and environment, which has been ascribed to enriched intergalactic medium (IGM) in dense environments, and therefore suggests that here the IGM was already significantly enriched by z  ~ 1.5.
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  • 9
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    Accurate determination of the free-free Gaunt factor - I. Non-relativistic Gaunt factors (2014)
    Oxford University Press
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    Publication Date: 2014-08-18
    Description: Modern spectral synthesis codes need the thermally averaged free–free Gaunt factor defined over a very wide range of parameter space in order to produce an accurate prediction for the spectrum emitted by an ionized plasma. Until now no set of data exists that would meet this need in a fully satisfactory way. We have therefore undertaken to produce a table of very accurate non-relativistic Gaunt factors over a much wider range of parameters than has ever been produced before. We first produced a table of non-averaged Gaunt factors, covering the parameter space 10 log i  = –20 to +10 and 10 log w  = –30 to +25. We then continued to produce a table of thermally averaged Gaunt factors covering the parameter space 10 log 2  = –6 to +10 and 10 log u  = –16 to +13. Finally, we produced a table of the frequency integrated Gaunt factor covering the parameter space 10 log 2  = –6 to +10. All the data presented in this paper are available online.
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    Topics: Physics
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  • 10
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    H-, He-like recombination spectra - II. l-changing collisions for He Rydberg states (2016)
    Oxford University Press
    Details
    Publication Date: 2016-10-17
    Description: Cosmological models can be constrained by determining primordial abundances. Accurate predictions of the He  i spectrum are needed to determine the primordial helium abundance to a precision of 〈1 per cent in order to constrain big bang nucleosynthesis models. Theoretical line emissivities at least this accurate are needed if this precision is to be achieved. In the first paper of this series, which focused on H  i , we showed that differences in l -changing collisional rate coefficients predicted by three different theories can translate into 10 per cent changes in predictions for H  i spectra. Here, we consider the more complicated case of He atoms, where low- l subshells are not energy degenerate. A criterion for deciding when the energy separation between l subshells is small enough to apply energy-degenerate collisional theories is given. Moreover, for certain conditions, the Bethe approximation originally proposed by Pengelly & Seaton is not sufficiently accurate. We introduce a simple modification of this theory which leads to rate coefficients which agree well with those obtained from pure quantal calculations using the approach of Vrinceanu et al. We show that the l -changing rate coefficients from the different theoretical approaches lead to differences of ~10 per cent in He  i emissivities in simulations of H  ii regions using spectral code cloudy .
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    Topics: Physics
    Published by Oxford University Press
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