754 research outputs found
A Significant Population of Candidate New Members of the ρ Ophiuchi Cluster
We present a general method for identifying the pre-main-sequence population of any star-forming region, unbiased with respect to the presence or absence of disks, in contrast to samples selected primarily via their mid-infrared emission from Spitzer surveys. We have applied this technique to a new, deep, wide-field, near-infrared imaging survey of the ρ Ophiuchi cloud core to search for candidate low-mass members. In conjunction with published Spitzer IRAC photometry and least-squares fits of model spectra (COND, DUSTY, NextGen, and blackbody) to the observed spectral energy distributions, we have identified 948 candidate cloud members within our 90% completeness limits of J = 20.0, H = 20.0, and Ks = 18.50. This population represents a factor of ~3 increase in the number of known young stellar objects in the ρ Ophiuchi cloud. A large fraction of the candidate cluster members (81% ± 3%) exhibit infrared excess emission consistent with the presence of disks, thus strengthening the possibility of their being bona fide cloud members. Spectroscopic follow-up will confirm the nature of individual objects, better constrain their parameters, and allow an initial mass function to be derived
An Infrared/X-ray Survey for New Members of the Taurus Star-Forming Region
We present the results of a search for new members of the Taurus star-forming
region using data from the Spitzer Space Telescope and the XMM-Newton
Observatory. We have obtained optical and near-infrared spectra of 44 sources
that exhibit red Spitzer colors that are indicative of stars with circumstellar
disks and 51 candidate young stars that were identified by Scelsi and coworkers
using XMM-Newton. We also performed spectroscopy on four possible companions to
members of Taurus that were reported by Kraus and Hillenbrand. Through these
spectra, we have demonstrated the youth and membership of 41 sources, 10 of
which were independently confirmed as young stars by Scelsi and coworkers. Five
of the new Taurus members are likely to be brown dwarfs based on their late
spectral types (>M6). One of the brown dwarfs has a spectral type of L0, making
it the first known L-type member of Taurus and the least massive known member
of the region (M=4-7 M_Jup). Another brown dwarf exhibits a flat infrared
spectral energy distribution, which indicates that it could be in the
protostellar class I stage (star+disk+envelope). Upon inspection of archival
images from various observatories, we find that one of the new young stars has
a large edge-on disk (r=2.5=350 AU). The scattered light from this disk has
undergone significant variability on a time scale of days in optical images
from the Canada-France-Hawaii Telescope. Using the updated census of Taurus, we
have measured the initial mass function for the fields observed by XMM-Newton.
The resulting mass function is similar to previous ones that we have reported
for Taurus, showing a surplus of stars at spectral types of K7-M1 (0.6-0.8
M_sun) relative to other nearby star-forming regions like IC 348, Chamaeleon I,
and the Orion Nebula Cluster
A mid-infrared study of very low mass stars and brown dwarfs in Upper Scorpius
We report the results of mid-IR observations with VISIR at the VLT of 10
ultracool dwarfs members of the nearby Upper Scorpius OB association in four
filters ranging between 8.59 (PAH1) to 12.8 m (Ne II), and one brown dwarf
with Spitzer between 3.6 and 24 m. Seven of our targets are detected in at
least one of the bands, and we derive upper limits on the fluxes of the
remaining 4. These results combined with previous studies from the literature
lead to an improved disk frequency of 5012%. This frequency is
significantly higher than that of accretors (16.3%6.2%). Only one object
showing mid-IR excess also has H emission at a level indicating that it
must be accreting. Four of the detected targets are multiple system candidates.
The observed disk frequency for sub-stellar objects in the Upper Scorpius
association is similar to that of stars, consistent with a common formation
scenario. It is also similar to the disk fractions observed in younger
clusters, suggesting that the disk lifetimes might be longer for ultracool
dwarfs than for higher-mass stars.Comment: 10 pages, 4 figures, accepted for A&
Spectroscopy of new brown dwarf members of rho Ophiuchi and an updated initial mass function
To investigate the universality hypothesis of the initial mass function in
the substellar regime, the population of the rho Ophiuchi molecular cloud is
analysed by including a new sample of low-mass spectroscopically confirmed
members. To that end, we have conducted a large spectroscopic follow-up of
young substellar candidates uncovered in our previous photometric survey. The
spectral types and extinction were derived for a newly found population of
substellar objects, and its masses estimated by comparison to evolutionary
models. A thoroughly literature search was conducted to provide an up-to-date
census of the cluster, which was then used to derive the luminosity and mass
functions, as well as the ratio of brown dwarfs to stars in the cluster. These
results were then compared to other young clusters. It is shown that the study
of the substellar population of the rho Ophiuchi molecular cloud is hampered
only by the high extinction in the cluster ruling out an apparent paucity of
brown dwarfs. The discovery of 16 new members of rho Ophiuchi, 13 of them in
the substellar regime, reveals the low-mass end of its population and shows the
success of our photometric candidate selection with the WIRCam survey. The
study of the brown dwarf population of the cluster reveals a high disk fraction
of 76 (+5-8)%. Taking the characteristic peak mass of the derived mass function
and the ratio of brown dwarfs to stars into account, we conclude that the mass
function of rho Ophiuchi is similar to other nearby young clusters.Comment: Accepted to A&A (30 December 2011); v2 includes language editin
17 new very low-mass members in Taurus. The brown dwarf deficit revisited
Recent studies of the substellar population in the Taurus cloud have revealed
a deficit of brown dwarfs (BD) compared to the Trapezium cluster population
(Briceno et al 1998; Luhman 2000; Luhman et al 2003a; Luhman 2004). However,
these works have concentrated on the highest stellar density regions of the
Taurus cloud. We have performed a large scale optical survey of this region,
covering a total area of 30 deg^2, and encompassing the densest part of the
cloud as well as their surroundings, down to a mass detection limits of 15
Jupiter Masses (MJ). In this paper, we present the optical spectroscopic
follow-up observations of 97 photometrically selected potential new low-mass
Taurus members, of which 27 are strong late-M (SpT < M4V) candidates. These
observations reveal 5 new very low mass (VLM) Taurus members and 12 new BDs.
Combining our observations with previously published results, we derive an
updated substellar to stellar ratio in Taurus of Rss =0.23 +/- 0.05. This ratio
now appears consistent with the value previously derived in the Trapezium
cluster under similar assumptions of 0.26 +/- 0.04. We find strong indication
that the relative numbers of BDs with respect to stars is decreased by a factor
2 in the central regions of the aggregates with respect to the more distributed
population. Our findings are best explained in the context of the
embryo-ejection model where brown dwarfs originate from dynamical interactions
in small N unstable multiple systems.Comment: 20 pages, 15 figure
New Young Stars and Brown Dwarfs in the Upper Scorpius Association
To improve the census of the Upper Sco association (~11 Myr, ~145 pc), we
have identified candidate members using parallaxes, proper motions, and
color-magnitude diagrams from several wide-field imaging surveys and have
obtained optical and infrared spectra of several hundred candidates to measure
their spectral types and assess their membership. We also have performed
spectroscopy on a smaller sample of previously known or suspected members to
refine their spectral types and evidence of membership. We have classified 530
targets as members of Upper Sco, 377 of which lack previous spectroscopy. Our
new compilation of all known members of the association contains 1631 objects.
Although the census of Upper Sco has expanded significantly over the last
decade, there remain hundreds of candidates that lack spectroscopy. The precise
parallaxes and proper motions from the second data release of Gaia should
extend down to substellar masses in Upper Sco, which will greatly facilitate
the identification of the undiscovered members.Comment: Astronomical Journal, in press; machine readable tables and fits
spectra available at http://personal.psu.edu/kll207/usco.ta
X-ray view of IC348 in the light of an updated cluster census
We study the properties of the coronae of the low-mass stars in the young
(~2-3Myr), nearby (~310pc) open cluster IC348 combining X-ray and
optical/infrared data. The four existing Chandra observations of IC348 are
merged, thus providing a deeper and spatially more complete X-ray view than
previous X-ray studies of the cluster. We have compiled a comprehensive catalog
of IC348 members taking into account recent updates to the cluster census. Our
data collection comprises fundamental stellar parameters, infrared excess
indicating the presence of disks, Halpha emission as a tracer of chromospheric
emission or accretion and mass accretion rates. We have detected 290 X-ray
sources in four merged Chandra exposures, of which 187 are associated with
known cluster members. Only four of the X-ray sources are brown dwarfs
(spectral type M6 and later). The detection rate is highest for diskless Class
III stars and increases with stellar mass. This may be explained with higher
X-ray luminosities for higher mass and later evolutionary stage that is evident
in the X-ray luminosity functions. In particular, we find that for the lowest
examined masses (0.1-0.25 Msun) there is a difference between the X-ray
luminosity functions of accreting and non-accreting stars (classified on the
basis of their Halpha emission strength) as well as those of disk-bearing and
diskless stars (classified on the basis of the slope of the spectral energy
distribution). These differences disappear for higher masses. This is related
to our finding that the L_x/L_bol ratio is non-constant across the
mass/luminosity sequence of IC348 with a decrease towards lower luminosity
stars. Our analysis of an analogous stellar sample in the Orion Nebula Cluster
suggests that the decline of L_x/L_ bol for young stars at the low-mass end of
the stellar sequence is likely universal.Comment: Accepted for publication in Astronomy & Astrophysic
A Survey for Low-Mass Stars and Brown Dwarfs in the Eta Cha and Eps Cha Young Associations
I present the results of a search for new low-mass stars and brown dwarfs in
the Eta Cha and Eps Cha young associations. Within radii of 1.5 and 0.5 deg
surrounding Eta Cha and Eps Cha, respectively, I have constructed
color-magnitude diagrams from DENIS and 2MASS photometry and have obtained
spectra of the candidate low-mass members therein. The five candidates in Eta
Cha are classified as four field M dwarfs and one carbon star. No new members
are found in this survey, which is complete for M_sun=0.015-0.15 according to
the evolutionary models of Chabrier and Baraffe. Thus, an extended population
of low-mass members is not present in Eta Cha out to four times the radius of
the known membership. Meanwhile, the three candidate members of Eps Cha are
classified as young stars, and thus likely members of the association, based on
Li absorption and gravity-sensitive absorption lines. These new sources have
spectral types of M2.25, M3.75, and M5.75, corresponding to masses of 0.45,
0.25, and 0.09 M_sun by the models of Chabrier and Baraffe. For one of these
stars, intense H(alpha) emission, forbidden line emission, and strong K-band
excess emission suggest the presence of accretion, an outflow, and a disk,
respectively. This young star is also much fainter than expected for an
association member at its spectral type, which could indicate that it is seen
in scattered light. No brown dwarfs are detected in Eps Cha down to the
completeness limit of 0.015 M_sun. The absence of brown dwarfs in these
associations is statistically consistent with the mass functions measured in
star-forming regions, which exhibit only ~2 and ~1 brown dwarfs for stellar
samples at the sizes of the Eta Cha and Eps Cha associations.Comment: 19 pages, The Astrophysical Journal, 2004, v616 (December 1
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