20 research outputs found
A Spitzer View of the Young Open Cluster NGC 2264
We have performed mid-IR photometry of the young open cluster NGC 2264 using
the images obtained with the Spitzer Space Telescope IRAC and MIPS instruments
and present a normalized classification scheme of young stellar objects in
various color-color diagrams to make full use of the information from
multicolor photometry. These results are compared with the classification
scheme based on the slope of the spectral energy distribution (SED).
From the spatial distributions of Class I and II stars, we have identified
two subclusterings of Class I objects in the CONE region of Sung et al. The
disked stars in the other star forming region S MON are mostly Class II
objects. These three regions show a distinct difference in the fractional
distribution of SED slopes as well as the mean value of SED slopes. The
fraction of stars with primordial disks is nearly flat between log m = 0.2 --
-0.5, and that of transition disks is very high for solar mass stars. In
addition, we have derived a somewhat higher value of the primordial disk
fraction for NGC 2264 members located below the main pre-main sequence locus
(so-called BMS stars). This result supports the idea that BMS stars are young
stars with nearly edge-on disks. We have also found that the fraction of
primordial disks is very low near the most massive star S Mon and increases
with distance from S Mon.Comment: 38 pages, 21 figures, 5 tables (AJ accepted
New Members of the Scorpius Centaurus Complex and Ages of its sub-regions
We have spectroscopically identified about 100 G-, K- and M-type members of
the Scorpius Centaurus complex. To deduce the age of these young stars we
compare their Li 6708 absorption line strengths against those of stars
in the TW Hydrae association and Pictoris moving group. These line
strengths indicate that Sco-Cen stars are younger than Pic stars whose
ages of ~12 Myr have previously been derived from a kinematic traceback
analysis. Our derived age,~10Myr, for stars in the LCC and UCL subgroups of
ScoCen is younger than previously published ages based on the moving cluster
method and upper main sequence fitting. The discrepant ages are likely due to
an incorrect (or lack of) cross-calibration between model-dependent and
model-independent age-dating methods.Comment: 3 figures, accepted in A
Risk factors for bovine Tuberculosis at the national level in Great Britain
<p><b>Background:</b> The continuing expansion of high incidence areas of bovine Tuberculosis (bTB) in Great Britain (GB) raises a number of questions concerning the determinants of infection at the herd level that are driving spread of the disease. Here, we develop risk factor models to quantify the importance of herd sizes, cattle imports from Ireland, history of bTB, badgers and cattle restocking in determining bTB incidence. We compare the significance of these different risk factors in high and low incidence areas (as determined by parish testing intervals).</p>
<p><b>Results:</b> Large herds and fattening herds are more likely to breakdown in all areas. In areas with lower perceived risk (longer testing intervals), the risk of breaking down is largely determined by the number of animals that a herd buys in from high incidence areas. In contrast, in higher perceived risk areas (shorter testing intervals), the risk of breakdown is defined by the history of disease and the probability of badger occurrence. Despite differences in the management of bTB across different countries of GB (England, Wales and Scotland), we found no significant differences in bTB risk at the national level after these other factors had been taken into account.</p>
<p><b>Conclusions:</b> This paper demonstrates that different types of farm are at risk of breakdown and that the most important risk factors vary according to bTB incidence in an area. The results suggest that significant gains in bTB control could be made by targeting herds in low incidence areas that import the greatest number of cattle from high incidence areas.</p>
A blue depression in the optical spectra of M dwarfs
A blue depression is found in the spectra of M dwarfs from 4000 to 4500A.
This depression shows an increase toward lower temperatures though is
particularly sensitive to gravity and metallicity. It is the single most
sensitive feature in the optical spectra of M dwarfs. The depression appears as
centered on the neutral calcium resonance line at 4227A and leads to nearby
features being weaker by about two orders of magnitude than predicted. We
consider a variety of possible causes for the depression including temperature,
gravity, metallicity, dust, damping constants, and atmospheric stratification.
We also consider relevant molecular opacities which might be the cause
identifying AlH, SiH, and NaH in the spectral region. However, none of these
solutions are satisfactory. In the absence of a more accurate determination of
the broadening of the calcium line perturbed by molecular hydrogen, we find a
promising empirical fit using a modified Lorentzian line profile for the
calcium resonance line. Such fits provide a simplistic line-broadening
description for this calcium resonance line and potentially other un-modelled
resonance lines in cool high-pressure atmospheres. Thus we claim the most
plausible cause of the blue depression in the optical spectra of M dwarfs is a
lack of appropriate treatment of line broadening for atomic calcium. The broad
wings of the calcium resonance line develop at temperatures below about 4000K
and are analogous to the neutral sodium and potassium features which dominate
the red optical spectra of L dwarfs.Comment: Accepted in MNRA
Identifying Nearby, Young, Late-type Stars by Means of Their Circumstellar Disks
It has recently been shown that a significant fraction of late-type members
of nearby, very young associations (age <10 Myr) display excess emission at
mid-IR wavelengths indicative of dusty circumstellar disks. We demonstrate that
the detection of mid-IR excess emission can be utilized to identify new nearby,
young, late-type stars including two definite new members ("TWA 33" and "TWA
34") of the TW Hydrae Association. Both new TWA members display mid-IR excess
emission in the Wide-field Infrared Survey Explorer (WISE) catalog and they
show proper motion and youthful spectroscopic characteristics -- namely H\alpha
emission, strong lithium absorption, and low surface gravity features
consistent with known TWA members. We also detect mid-IR excess -- the first
unambiguous evidence of a dusty circumstellar disk -- around a previously
identified UV-bright, young, accreting star (2M1337) that is a likely member of
the Lower-Centaurus Crux region of the Scorpius Centaurus Complex.Comment: ApJ, Accepte
A Spectral Classification System for Hydrogen-deficient Carbon Stars
Stellar spectral classification, and especially the Yerkes system, has been
highly useful in the study of stars. While there is a currently accepted
classification system for carbon stars, the subset of Hydrogen-deficient Carbon
(HdC) stars has not been well described by such a system, due in part to their
rarity and their variability. Here we present a new system for the
classification of HdCs based on their spectra, which is made wholly on their
observable appearance. We use a combination of dimensionality reduction and
clustering algorithms with human classification to create such a system. We
classify over half of the known sample of HdC stars using this, and roughly
calibrate the temperatures of each class using their colors. Additionally, we
express trends in the occurrence of certain spectral peculiarities such as the
presence of Hydrogen and Lithium lines. We also present three previously
unpublished spectra, and report the discovery of three new Galactic dustless
HdC (dLHdC) stars and additionally discuss one especially unique star that
appears to border between the hottest HdCs and the coolest Extreme Helium (EHe)
stars.Comment: 30 pages, 18 figures, submitted to MNRA
The closest extremely low-mass white dwarf to the Sun
We present the orbit and properties of 2MASS J050051.85β093054.9, establishing it as the closest (d β 71 pc) extremely low-mass white dwarf to the Sun. We find that this star is hydrogen rich with Teff β 10 500 K, log g β 5.9, and, following evolutionary models, has a mass of β0.17 M. Independent analysis of radial velocity and Transiting Exoplanet Survey Satellite (TESS) photometric time series reveals an orbital period of β9.5 h. Its high velocity amplitude (K β 144 km sβ1) produces a measurable Doppler beaming effect in the TESS
light curve with an amplitude of 1 mmag. The unseen companion is most likely a faint white dwarf. J0500β0930 belongs to a class of post-common envelope systems that will most likely merge through unstable mass transfer and in specific circumstances lead to Type Ia supernova explosions.AFM received funding from the European Unionβs Horizon 2020 research and
innovation programme under the Marie Sklodowska-Curie grant agreement 79710
Ultra-luminous quasars at redshift z > 4.5 from SkyMapper
The most luminous quasars at high-redshift harbour the fastest growing and most massive black holes in the early Universe. They are exceedingly rare and hard to find. Here, we present our search for the most luminous quasars in the redshift range from z = 4.5 to 5 using data from SkyMapper, Gaia, and WISE. We use colours to select likely high-redshift quasars and reduce the stellar contamination of the candidate set with parallax and proper motion data. In βΌ12 500 deg2 of Southern sky, we find 92 candidates brighter than Rp = 18.2. Spectroscopic follow-up has revealed 21 quasars at z β₯ 4 (16 of which are within z = [4.5, 5]), as well as several red quasars, Broad-Absorption-Line (BAL) quasars and objects with unusual spectra, which we tentatively label OFeLoBALQSOs at redshifts of z β 1 to 2. This work lifts the number of known bright z β₯ 4.5 quasars in the Southern hemisphere from 10 to 26 and brings the total number of quasars known at Rp < 18.2 and z β₯ 4.5 to 42
The Stellar Population of h and chi Persei: Cluster Properties, Membership, and the Intrinsic Colors and Temperatures of Stars
(Abridged) From photometric observations of 47,000 stars and
spectroscopy of 11,000 stars, we describe the first extensive study of
the stellar population of the famous Double Cluster, h and Persei, down
to subsolar masses. Both clusters have E(B-V) 0.52--0.55 and dM =
11.8--11.85; the halo population, while more poorly constrained, likely has
identical properties. As determined from the main sequence turnoff, the
luminosity of M supergiants, and pre-main sequence isochrones, ages for h
Persei, Persei and the halo population all converge on 14 Myr.
From these data, we establish the first spectroscopic and photometric
membership lists of cluster stars down to early/mid M dwarfs. At minimum, there
are 5,000 members within 10' of the cluster centers, while the entire h
and Persei region has at least 13,000 and as many as 20,000
members. The Double Cluster contains 8,400 M of stars
within 10' of the cluster centers. We estimate a total mass of at least 20,000
M. We conclude our study by outlining outstanding questions regarding
the properties of h and Persei. From comparing recent work, we compile a
list of intrinsic colors and derive a new effective temperature scale for O--M
dwarfs, giants, and supergiants.Comment: 88 pages, many figures, Accepted for publication in The Astrophysical
Journal Supplements. Contact lead author for version with high-resolution
figure