57 research outputs found
A 2 epoch proper motion catalogue from the UKIDSS Large Area Survey
This is an Open Access article distributed under the terms of the Creative Commons Attribution License 2.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly citedThe UKIDSS Large Area Survey (LAS) began in 2005, with the start of the UKIDSS program as a 7 year effort to survey roughly 4000 square degrees at high galactic latitudes in Y, J, H and K bands. The survey also included a significant quantity of 2-epoch J band observations, with epoch baselines ranging from 2 to 7 years. We present a proper motion catalogue for the 1500 square degrees of the 2 epoch LAS data, which includes some 800,000 sources with motions detected above the 5 sigma level. We developed a bespoke proper motion pipeline which applies a source-unique second order polynomial transformation to UKIDSS array coordinates of each source to counter potential local non-uniformity in the focal plane. Our catalogue agrees well with the proper motion data supplied in the current WFCAM Science Archive (WSA) DR9 catalogue where there is overlap, and in various optical catalogues, but it benefits from some improvements. One improvement is that we provide absolute proper motions, using LAS galaxies for the relative to absolute correction. Also, by using unique, local, 2nd order polynomial tranformations, as opposed to the linear transformations in the WSA, we correct better for any local distortions in the focal plane, not including the radial distortion that is removed by their pipeline
The discovery of a T6.5 subdwarf
We report the discovery of ULAS J131610.28+075553.0, an sdT6.5 dwarf in the UKIDSS Large Area Survey 2 epoch proper motion catalogue. This object displays significant spectral peculiarity, with the largest yet seen deviations from T6 and T7 templates in the Y and K bands for this subtype. Its large, similar to 1 arcsec yr(-1), proper motion suggests a large tangential velocity of V-tan approximate to 240-340 km s(-1), if we assume its M-J lies within the typical range for T6.5 dwarfs. This makes it a candidate for membership of the Galactic halo population. However, other metal-poor T dwarfs exhibit significant under luminosity both in specific bands and bolometrically. As a result, it is likely that its velocity is somewhat smaller, and we conclude it is a likely thick disc or halo member. This object represents the only T dwarf earlier than T8 to be classified as a subdwarf, and is a significant addition to the currently small number of known unambiguously substellar subdwarfs.Peer reviewe
Retrieval of atmospheric properties of cloudy L dwarfs
© 2017 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society.We present the first results from applying the spectral inversion technique in the cloudy L dwarf regime. Our new framework provides a flexible approach to modelling cloud opacity which can be built incrementally as the data requires, and improves upon previous retrieval experiments in the brown dwarf regime by allowing for scattering in two stream radiative transfer. Our first application of the tool to two mid-L dwarfs is able to reproduce their near-infrared spectra far more closely than grid models. Our retrieved thermal, chemical, and cloud profiles allow us to estimate K and for 2MASS J05002100+0330501 and for 2MASSW J2224438-015852 we find K and , in close agreement with previous empirical estimates. Our best model for both objects includes an optically thick cloud deck which passes (looking down) at a pressure of around 5 bar. The temperature at this pressure is too high for silicate species to condense, and we argue that corundum and/or iron clouds are responsible for this cloud opacity. Our retrieved profiles are cooler at depth, and warmer at altitude than the forward grid models that we compare, and we argue that some form of heating mechanism may be at work in the upper atmospheres of these L dwarfs. We also identify anomalously high CO abundance in both targets, which does not correlate with the warmth of our upper atmospheres or our choice of cloud model, and find similarly anomalous alkali abundance for one of our targets. These anomalies may reflect unrecognised shortcomings in our retrieval model, or inaccuracies in our gas phase opacities.Peer reviewedFinal Accepted Versio
Predicting Cloud Conditions in Substellar Mass Objects Using Ultracool Dwarf Companions
© 2024 The Author(s). Published by the American Astronomical Society. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY), https://creativecommons.org/licenses/by/4.0/We present results from conducting a theoretical chemical analysis of a sample of benchmark companion brown dwarfs whose primary star is of type F, G or K. We summarize the entire known sample of these types of companion systems, termed "compositional benchmarks", that are present in the literature or recently published as key systems of study in order to best understand brown dwarf chemistry and condensate formation. Via mass balance and stoichiometric calculations, we predict a median brown dwarf atmospheric oxygen sink of by utilizing published stellar abundances in the local solar neighborhood. Additionally, we predict a silicate condensation sequence such that atmospheres with bulk Mg/Si 0.9 will form enstatite (MgSiO) and quartz (SiO) clouds and atmospheres with bulk Mg/Si 0.9 will form enstatite and forsterite (MgSiO) clouds. Implications of these results on C/O ratio trends in substellar mass objects and utility of these predictions in future modeling work are discussed.Peer reviewe
Contamination and exclusion in the sigma Orionis young group
We present radial velocities for 38 low-mass candidate members of the sigma
Orionis young group. We have measured their radial velocities by
cross-correlation of high resolution (R~6000) AF2/WYFFOS spectra of the gravity
sensitive NaI doublet at 8183, 8195Angstroms. The total sample contained 117
objects of which 54 have sufficient signal-to-noise to detect NaI at an
equivalent width of 3Angstroms, however we only detect NaI in 38 of these. This
implies that very low-mass members of this young group display weaker NaI
absorption than similarly aged objects in the Upper Scorpius OB association. We
develop a technique to assess membership using radial velocities with a range
of uncertainties that does not bias the selection when large uncertainties are
present. The resulting membership probabilities are used to assess the issue of
exclusion in photometric selections, and we find that very few members are
likely to be excluded by such techniques.
We also assess the level of contamination in the expected pre-main sequence
region of colour-magnitude space brighter than I = 17. We find that
contamination by non-members in the expected PMS region of the colour-magnitude
diagram is small. We conclude that although radial velocity alone is
insufficient to confirm membership, high signal-to-noise observations of the
NaI doublet provide the opportunity to use the strength of NaI absorption in
concert with radial velocities to asses membership down to the lowest masses,
where Lithium absorption no longer distinguishes youth.Comment: 11 pages, MNRAS accepted. Online data available from:
http://www.astro.ex.ac.uk/people/timn/Catalogues/service.htm
A Comparative L-dwarf Sample Exploring the Interplay Between Atmospheric Assumptions and Data Properties
© 2022. The Author(s). Published by the American Astronomical Society. This is an open access article distributed under the Creative Commons Attribution License, to view a copy of the license, see: https://creativecommons.org/licenses/by/4.0/Comparisons of atmospheric retrievals can reveal powerful insights on the strengths and limitations of our data and modeling tools. In this paper, we examine a sample of 5 similar effective temperature (Teff) or spectral type L dwarfs to compare their pressure-temperature (P-T) profiles. Additionally, we explore the impact of an object's metallicity and the observations' signal-to-noise (SNR) on the parameters we can retrieve. We present the first atmospheric retrievals: 2MASS J152614052043414, 2MASS J053952000059019, 2MASS J153941890520428, and GD 165B increasing the small but growing number of L-dwarfs retrieved. When compared to atmospheric retrievals of SDSS J141624.08+134826.7, a low-metallicity d/sdL7 primary in a wide L+T binary, we find similar Teff sources have similar P-T profiles with metallicity differences impacting the relative offset between their P-T profiles in the photosphere. We also find that for near-infrared spectra, when the SNR is we are in a regime where model uncertainties dominate over data measurement uncertainties. As such, SNR does not play a role in the retrieval's ability to distinguish between a cloud-free and cloudless model, but may impact the confidence of the retrieved parameters. Lastly, we also discuss how to break cloud model degeneracies and the impact of extraneous gases in a retrieval model.Peer reviewe
Measuring ultracool properties from the UKIDSS Large Area Survey
This is an Open Access article distributed under the terms of the Creative Commons Attribution License 2.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly citedWe discuss the properties and of ultracool and brown dwarfs that can be measured from current large area surveys and how fundamental parameters, such as the mass function and formation history can be measured, describing our own first measurement of the formation history in the sub-stellar regime using data from the UKIDSS Large Area Survey
Properties of the T8.5 Dwarf Wolf 940 B
We present 7.5-14.2um low-resolution spectroscopy, obtained with the Spitzer
Infrared Spectrograph, of the T8.5 dwarf Wolf 940 B, which is a companion to an
M4 dwarf with a projected separation of 400 AU. We combine these data with
previously published near-infrared spectroscopy and mid-infrared photometry, to
produce the spectral energy distribution for the very low-temperature T dwarf.
We use atmospheric models to derive the bolometric correction and obtain a
luminosity of log L/Lsun = -6.01 +/- 0.05. Evolutionary models are used with
the luminosity to constrain the values of effective temperature (T_eff) and
surface gravity, and hence mass and age for the T dwarf. We further restrict
the allowed range of T_eff and gravity using age constraints implied by the M
dwarf primary, and refine the physical properties of the T dwarf by comparison
of the observed and modelled spectroscopy and photometry. This comparison
indicates that Wolf 940 B has a metallicity within 0.2 dex of solar, as more
extreme values give poor fits to the data - lower metallicity produces a poor
fit at lambda > 2um while higher metallicity produces a poor fit at lambda <
2um. This is consistent with the independently derived value of [m/H] = +0.24
+/- 0.09 for the primary star, using the Johnson & Apps (2008) M_K:V-K
relationship. We find that the T dwarf atmosphere is undergoing vigorous
mixing, with an eddy diffusion coefficient K_zz of 10^4 to 10^6 cm^2 s^-1. We
derive an effective temperature of 585 K to 625 K, and surface gravity log g =
4.83 to 5.22 (cm s^-2), for an age range of 3 Gyr to 10 Gyr, as implied by the
kinematic and H alpha properties of the M dwarf primary. The lower gravity
corresponds to the lower temperature and younger age for the system, and the
higher value to the higher temperature and older age. The mass of the T dwarf
is 24 M_Jupiter to 45 M_Jupiter for the younger to older age limit.Comment: 24 pages which include 5 Figures and 3 Tables. Accepted for
publication in the Astrophysical Journal July 2 201
A LOFAR mini-survey for low-frequency radio emission from the nearest brown dwarfs
We have conducted a mini-survey for low-frequency radio emission from some of the closest brown dwarfs to the Sun with rapid rotation rates: SIMP J013656.5 +093347, WISEPC 150649.97+702736.0, and WISEPA J174124.26+255319.5.We have placed robust 3s upper limits on the flux density in the 111 – 169 MHz frequency range for these targets: WISE 1506: < 0:72 mJy; WISE 1741: < 0:87 mJy; SIMP 0136: < 0:66 mJy. At 8 hours of integration per target to achieve these limits, we find that systematic and detailed study of this class of object at LOFAR frequencies will require a substantial dedication of resources
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