69 research outputs found
DA white dwarfs from the LSS-GAC survey DR1: the preliminary luminosity and mass functions and formation rate
Modern large-scale surveys have allowed the identification of large numbers
of white dwarfs. However, these surveys are subject to complicated target
selection algorithms, which make it almost impossible to quantify to what
extent the observational biases affect the observed populations. The LAMOST
(Large Sky Area Multi-Object Fiber Spectroscopic Telescope) Spectroscopic
Survey of the Galactic anti-center (LSS-GAC) follows a well-defined set of
criteria for selecting targets for observations. This advantage over previous
surveys has been fully exploited here to identify a small yet
well-characterised magnitude-limited sample of hydrogen-rich (DA) white dwarfs.
We derive preliminary LSS-GAC DA white dwarf luminosity and mass functions. The
space density and average formation rate of DA white dwarfs we derive are
0.83+/-0.16 x 10^{-3} pc^{-3} and 5.42 +/- 0.08 x 10^{-13} pc^{-3} yr^{-1},
respectively. Additionally, using an existing Monte Carlo population synthesis
code we simulate the population of single DA white dwarfs in the Galactic
anti-center, under various assumptions. The synthetic populations are passed
through the LSS-GAC selection criteria, taking into account all possible
observational biases. This allows us to perform a meaningful comparison of the
observed and simulated distributions. We find that the LSS-GAC set of criteria
is highly efficient in selecting white dwarfs for spectroscopic observations
(80-85 per cent) and that, overall, our simulations reproduce well the observed
luminosity function. However, they fail at reproducing an excess of massive
white dwarfs present in the observed mass function. A plausible explanation for
this is that a sizable fraction of massive white dwarfs in the Galaxy are the
product of white dwarf-white dwarf mergers.Comment: 23 pages, 14 figures and 5 tables. Accepted for publication by MNRA
Abundances of C, N, O in slightly evolved stars in the globular clusters NGC 6397, NGC 6752 and 47 Tuc
Abundances of C and N are derived from features due to the CH G-band and to
the UV CN band measured on high resolution (R ~ 40,000) UVES spectra of more
than 40 dwarfs and subgiants in NGC 6397, NGC 6752 and 47 Tuc. Oxygen
abundances (or upper limits) are available for all stars in the sample.
Isotopic ratios 12C/13C were derived from the CH molecular band. This is the
first determination of this ratio in unevolved dwarf stars in globular
clusters. By enlarging the sample of subgiants in NGC 6397 studied in Gratton
et al. (2001), we uncovered, for the first time, large variations in both Na
and O also in this cluster. The origin of the chemical inhomogeneities must be
searched for outside the stars under scrutiny. Our data indicate that in
unevolved or slightly evolved stars in these clusters C abundances are low but
not zero, also in stars with large N-enhancements and O-depletions, and that
the isotopic ratios 12C/13C are low, but never reach the equilibrium value of
the CN-cycle. When coupled with the run of O and Na abundances, these findings
possibly require that, in addition to CNO burning and p-captures, some
triple-alpha process is also involved: previously evolved intermediate-mass AGB
stars are then the most likely polluters.Comment: 16 pages, 18 figures, accepted for publication on A&
Low-resolution spectroscopy of main sequence stars belonging to 12 Galactic globular clusters. I. CH and CN band strength variations
Globular clusters show abundance variations for light elements that are not
yet well understood. The preferred explanation involves a self-enrichment
scenario, with two subsequent generations of stars. Observations of main
sequence stars allow us to investigate the signature of this chemically
processed material without the complicating effects of internal mixing. Our
goal is to investigate the C-N anti-correlation with low-resolution
spectroscopy of 20-50 stars fainter than the first dredge-up in seven globular
clusters (NGC288, NGC1851, NGC5927, NGC6352, NGC6388, and Pal12) with different
properties. We complemented our observations with 47~Tuc archival data, with
four additional clusters from the literature (M15, M22, M55, NGC362), and with
additional literature data on NGC288. In this first paper, we measured the
strength of CN and CH band indices, and we investigated the anti-correlation
and bimodality of these indices. We compared r_CN, the ratio of stars belonging
to the CN-strong and weak groups, with 15 different cluster parameters. We
clearly see bimodal anti-correlation of the CH and CN band stregths in the
metal-rich clusters (Pal12, 47Tuc, NGC6352, NGC5927). Only M15 among the
metal-poor clusters shows a clearly bimodal anti-correlation. We found weak
correlations (sligthly above 1 sigma) of r_CN with the cluster orbital
parameters, present-day total mass, cluster concentration, and age. Our
findings support the self-enrichment scenario, and suggest that the occurrence
of more than two major generations of stars in a GGC should be rare. Small
additional generations (<10-20% of the total) would be difficult to detect with
our samples. The first generation, which corresponds to the CN-weak stars,
usually contains more stars than the second one (=0.82+/-0.29), as
opposed to results based on the Na-O anti-correlations.Comment: 18 pages, 10 figures, 1 electronic table, accepted for publication in
A&A (language edited version
Point mutations in the Rpb9-homologous domain of Rpc11 that impair transcription termination by RNA polymerase III
RNA polymerase III recognizes and pauses at its terminator, an oligo(dT) tract in non-template DNA, terminates 3′ oligo(rU) synthesis within this sequence, and releases the RNA. The pol III subunit Rpc11p (C11) mediates RNA 3′–5′ cleavage in the catalytic center of pol III during pausing. The amino and carboxyl regions of C11 are homologous to domains of the pol II subunit Rpb9p, and the pol II elongation and RNA cleavage factor, TFIIS, respectively. We isolated C11 mutants from Schizosaccharomyces pombe that cause pol III to readthrough terminators in vivo. Mutant RNA confirmed the presence of terminator readthrough transcripts. A predominant mutation site, F32, resides in the C11 Rpb9-like domain. Another mutagenic approach confirmed the F32 mutation and also isolated I34 and Y30 mutants. Modeling Y30, F32 and I34 of C11 in available cryoEM pol III structures predicts a hydrophobic patch that may interface with C53/37. Another termination mutant, Rpc2-T455I, appears to reside internally, near the RNA–DNA hybrid. We show that the Rpb9 and TFIIS homologous mutants of C11 reflect distinct activities, that differentially affect terminator recognition and RNA 3′ cleavage. We propose that these C11 domains integrate action at the upper jaw and center of pol III during termination
Integral field spectroscopy of planetary nebulae: mapping the line diagnostics and hydrogen-poor zones with VLT FLAMES
Results from the first dedicated study of Galactic planetary nebulae (PNe) by means of optical integral field spectroscopy with the Very Large Telescope Fibre Large Array Multi Element Spectrograph Argus integral field unit are presented. Three typical Galactic disc PNe have been mapped with the 11.5 × 7.2-arcsec2 Argus array: 2D spectral maps of the main shell of NGC 5882 and of large areas of NGC 6153 and NGC 7009 with 297 spatial pixels per target were obtained at subarcsec resolutions. A corresponding number of 297 spectra per target were obtained in the 396.4–507.8 nm range. Spatially resolved maps of emission lines and of nebular physical properties such as electron temperatures, densities and ionic abundances were produced. The abundances of helium and of doubly ionized carbon and oxygen, relative to hydrogen, were derived from optical recombination lines (ORLs), while those of O2+ were also derived from the classic collisionally excited lines (CELs). The occurrence of the abundance discrepancy problem, pertaining to oxygen, was investigated by mapping the ratio of ORL/CEL abundances for O2+[the abundance discrepancy factor (ADF)] across the face of the PNe. The ADF varies between targets and also with position within the targets, attaining values of ∼40 in the case of NGC 6153 and ∼30 in the case of NGC 7009. Correlations of the ADF with geometric distance from the central star and plasma surface brightness (for NGC 6153), as well as with [O III] electron temperature, plasma ionization state and other physical properties of the targets are established. Very small values of the temperature fluctuation parameter in the plane of the sky, t2A(O2+), are found in all cases.It is argued that these results provide further evidence for the existence in run-of-the-mill PNe of a distinct nebular component consisting of hydrogen-deficient, super-metal-rich plasma. The zones containing this posited component appear as undulations in the C II and O II ORL abundance diagnostics of about 2 spatial pixels across, and so any associated structures should have physical sizes of less than ∼1000 astronomical units. Regarding the origin of the inferred zones, we propose that circumstellar discs, Abell 30-type knots, or Helix-type cometary globules may be involved. Implications for emission-line studies of nebulae are discussed
A metric space for Type Ia supernova spectra
We develop a new framework for use in exploring Type Ia supernovae (SNe Ia) spectra. Combining principal component analysis (PCA) and partial least square (PLS) analysis we are able to establish correlations between the principal components (PCs) and spectroscopic/photometric SNe Ia features. The technique was applied to ∼120 SN and ∼800 spectra from the Nearby Supernova Factory. The ability of PCA to group together SNe Ia with similar spectral features, already explored in previous studies, is greatly enhanced by two important modifications: (1) the initial data matrix is built using derivatives of spectra over the wavelength, which increases the weight of weak lines and discards extinction, and (2) we extract time evolution information through the use of entire spectral sequences concatenated in each line of the input data matrix. These allow us to define a stable PC parameter space which can be used to characterize synthetic SN Ia spectra by means of real SN features. Using PLS, we demonstrate that the information from important previously known spectral indicators (namely the pseudo-equivalent width of Si II 5972 Å/Si II 6355 Å and the line velocity of S II 5640 Å/Si II 6355 Å) at a given epoch is contained within the PC space and can be determined through a linear combination of the most important PCs. We also show that the PC space encompasses photometric features like B/V magnitudes, B − V colours and SALT2 parameters c and x1. The observed colours and magnitudes, which are heavily affected by extinction, cannot be reconstructed using this technique alone. All the above-mentioned applications allowed us to construct a metric space for comparing synthetic SN Ia spectra with observations
A faint type of supernova from a white dwarf with a helium-rich companion
Supernovae (SNe) are thought to arise from two different physical processes.
The cores of massive, short-lived stars undergo gravitational core collapse and
typically eject a few solar masses during their explosion. These are thought to
appear as as type Ib/c and II SNe, and are associated with young stellar
populations. A type Ia SN is thought to arise from the thermonuclear detonation
of a white dwarf star composed mainly of carbon and oxygen, whose mass
approaches the Chandrasekhar limit. Such SNe are observed in both young and old
stellar environments. Here we report our discovery of the faint type Ib SN
2005E in the halo of the nearby isolated galaxy, NGC 1032.
The lack of any trace of recent star formation near the SN location (Fig. 1),
and the very low derived ejected mass (~0.3 M_sun), argue strongly against a
core-collapse origin for this event. Spectroscopic observations and the derived
nucleosynthetic output show that the SN ejecta have high velocities and are
dominated by helium-burning products, indicating that SN 2005E was neither a
subluminous nor a regular SN Ia (Fig. 2). We have therefore found a new type of
stellar explosion, arising from a low-mass, old stellar system, likely
involving a binary with a primary white dwarf and a helium-rich secondary. The
SN ejecta contain more calcium than observed in any known type of SN and likely
additional large amounts of radioactive 44Ti. Such SNe may thus help resolve
fundamental physical puzzles, extending from the composition of the primitive
solar system and that of the oldest stars, to the Galactic production of
positrons.Comment: Revised to reflect published version in Nature, May 20th, 2010.
Additional data and analysis are include
Comparative whole genome sequencing reveals phenotypic tRNA gene duplication in spontaneous Schizosaccharomyces pombe La mutants
We used a genetic screen based on tRNA-mediated suppression (TMS) in a Schizosaccharomyces pombe La protein (Sla1p) mutant. Suppressor pre-tRNASerUCA-C47:6U with a debilitating substitution in its variable arm fails to produce tRNA in a sla1-rrm mutant deficient for RNA chaperone-like activity. The parent strain and spontaneous mutant were analyzed using Solexa sequencing. One synonymous single-nucleotide polymorphism (SNP), unrelated to the phenotype, was identified. Further sequence analyses found a duplication of the tRNASerUCA-C47:6U gene, which was shown to cause the phenotype. Ninety percent of 28 isolated mutants contain duplicated tRNASerUCA-C47:6U genes. The tRNA gene duplication led to a disproportionately large increase in tRNASerUCA-C47:6U levels in sla1-rrm but not sla1-null cells, consistent with non-specific low-affinity interactions contributing to the RNA chaperone-like activity of La, similar to other RNA chaperones. Our analysis also identified 24 SNPs between ours and S. pombe 972h- strain yFS101 that was recently sequenced using Solexa. By including mitochondrial (mt) DNA in our analysis, overall coverage increased from 52% to 96%. mtDNA from our strain and yFS101 shared 14 mtSNPs relative to a ‘reference’ mtDNA, providing the first identification of these S. pombe mtDNA discrepancies. Thus, strain-specific and spontaneous phenotypic mutations can be mapped in S. pombe by Solexa sequencing
A united statement of the global chiropractic research community against the pseudoscientific claim that chiropractic care boosts immunity.
BACKGROUND: In the midst of the coronavirus pandemic, the International Chiropractors Association (ICA) posted reports claiming that chiropractic care can impact the immune system. These claims clash with recommendations from the World Health Organization and World Federation of Chiropractic. We discuss the scientific validity of the claims made in these ICA reports. MAIN BODY: We reviewed the two reports posted by the ICA on their website on March 20 and March 28, 2020. We explored the method used to develop the claim that chiropractic adjustments impact the immune system and discuss the scientific merit of that claim. We provide a response to the ICA reports and explain why this claim lacks scientific credibility and is dangerous to the public. More than 150 researchers from 11 countries reviewed and endorsed our response. CONCLUSION: In their reports, the ICA provided no valid clinical scientific evidence that chiropractic care can impact the immune system. We call on regulatory authorities and professional leaders to take robust political and regulatory action against those claiming that chiropractic adjustments have a clinical impact on the immune system
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