Circumstellar Disk Candidates Identified in NGC 2264

Rebull, L. M.; Makidon, Russell B.; Strom, S. E.; Hillenbrand, Lynne A.; Birmingham, A.; Patten, B. M.; Jones, B. F.; Yagi, Hisao; Adams, Mark T.

doi:10.1086/338904

Cited by 123 publications

(265 citation statements)

References 31 publications

Supporting

Mentioning

246

Contrasting

Unclassified

Order By: Relevance

“…These IRAC data were obtained in two epochs, March and October 2004, and can help us to distinguish the stars with a disk from diskless objects. In addition, we investigated W λ (Hα), U − V and near-infrared excesses (I − K and H − K) by Rebull et al (2002), near-infrared excess and W λ (Hα) by Dahm & Simon (2005), mid-infrared excess by Cieza & Baliber (2007), and uband exccess by Venuti et al (2014). For disk identification purposes, we used the following values to indicate the presence of a disk: .15, [3.8 − 8.0] ≥ 0.7, and α IRAC > −2.56.…”

Section: Ngc 2264 Stars -Hypothesismentioning

confidence: 99%

“…Rebull et al (2000) described the origin of some disk indicators commonly used in the literature, such as U − V excess, Hα emission (which are accretion diagnostics and, consequently, indicate the presence of circumstellar disks), and infrared excesses (I − K and H − K, which are diagnostics of dust heated in circumstellar disk). Rebull et al (2002) used U − V, I − K, H − K excesses, and Hα emission to identify circumstellar disk candidates in NGC 2264. Makidon et al (2004) used these same disk indicators to search for eventual correlations with period of NGC 2246 stars, but found no conclusive evidence that slower rotating stars have disk indicators, or that faster rotators are less likely to have disk indicators.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Stellar models simulating the disk-locking mechanism and the evolutionary history of the Orion Nebula cluster and NGC 2264

Landin

Mendes

Vaz

et al. 2016

A&A

View full text Add to dashboard Cite

Context. Rotational evolution in young stars is described by pre-main sequence evolutionary tracks including non-gray boundary conditions, rotation, conservation of angular momentum, and simulations of disk-locking. Aims. By assuming that disk-locking is the regulation mechanism for the stellar angular velocity during the early stages of pre-main sequence evolution, we use our rotating models and observational data to constrain disk lifetimes (T disk ) of a representative sample of low-mass stars in two young clusters, the Orion Nebula cluster (ONC) and NGC 2264, and to better understand their rotational evolution. Methods. The period distributions of the ONC and NGC 2264 are known to be bimodal and to depend on the stellar mass. To follow the rotational evolution of these two clusters' stars, we generated sets of evolutionary tracks from a fully convective configuration with low central temperatures (before D-and Li-burning). We assumed that the evolution of fast rotators can be represented by models considering conservation of angular momentum during all stages and of moderate rotators by models considering conservation of angular velocity during the first stages of evolution. With these models we estimate a mass and an age for all stars. Results. The resulting mass distribution for the bulk of the cluster population is in the ranges of 0.2−0.4 M and 0.1−0.6 M for the ONC and NGC 2264, respectively. For the ONC, we assume that the secondary peak in the period distribution is due to high-mass objects still locked in their disks, with a locking period (P lock ) of ∼8 days. For NGC 2264 we make two hypotheses: (1) the stars in the secondary peak are still locked with P lock = 5 days, and (2) NGC 2264 is in a later stage in the rotational evolution. Hypothesis 2 implies in a disk-locking scenario with P lock = 8 days, a disk lifetime of 1 Myr and, after that, constant angular momentum evolution. We then simulated the period distribution of NGC 2264 when the mean age of the cluster was 1 Myr. Dichotomy and bimodality appear in the simulated distribution, presenting one peak at 2 days and another one at 5−7 days, indicating that the assumption of P lock = 8 days is plausible. Our hypotheses are compared with observational disk diagnoses available in the literature for the ONC and NGC 2264, such as near-infrared excess, Hα emission, and spectral energy distribution slope in the mid-infrared. Conclusions. Disk-locking models with P lock = 8 days and 0.2 Myr ≤ T disk ≤ 3 Myr are consistent with observed periods of moderate rotators of the ONC. For NGC 2264, the more promising explanation for the observed period distribution is an evolution with disk-locking (with P lock near 8 days) during the first 1 Myr, approximately, but after this, the evolution continued with constant angular momentum.

show abstract

Section: Ngc 2264 Stars -Hypothesismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Stellar models simulating the disk-locking mechanism and the evolutionary history of the Orion Nebula cluster and NGC 2264

Landin

Mendes

Vaz

et al. 2016

A&A

View full text Add to dashboard Cite

show abstract

“…The study introduced here is only a small part (0.6 deg 2 ) of a much broader survey, which has mapped significant areas (70 deg 2 ) of a variety of environments (ages 1-600 Myr) sufficiently deeply to probe BD; in all of the targeted regions, the limiting mass is in the range 10-40 M Jup . NGC 2264, because of its youth and relative proximity (3 Myr, 760 pc; Lamm et al 2004;Rebull et al 2002;Sung et al 1997;Park et al 2000), is probed to the lower end of this mass range with the current observations. We will discuss our initial findings on NGC 2264 in Sect.…”

Section: Introductionmentioning

confidence: 56%

“…9. We note we have no objects in common with the sample of Rebull et al (2002), because their limiting magnitude is only I ∼ 17.9. It is clear that the vast majority of our faint sample have colours consistent with the NextGen isochrones for NGC 2264.…”

Section: Discussionmentioning

confidence: 99%

“…A brief examination of the reddening derived by previous authors is relevant at this point. At the galactic coordinates for NGC 2264 given by Rebull et al (2002), (l = 202.96, b = +2.22) the maps of Schlegel et al (1998) yield A v = 5.63, but it is considered that a background dark molecular cloud exists (Rebull et al 2002), limiting contamination by background giants. Indeed, these authors find a typical extinction towards NGC 2264 members A v ∼ 0.45 (from photometry and spectroscopy of latetype members), in good agreement with earlier values derived using small numbers of OB stars (Sung et al 1997;Park et al 2000).…”

Section: Dereddening the Samplementioning

confidence: 99%

See 1 more Smart Citation

A deep, wide-field search for substellar members in NGC 2264

Kendall

Bouvier

Moraux³

et al. 2005

A&A

View full text Add to dashboard Cite

Abstract.We report the first results of our ongoing campaign to discover the first brown dwarfs (BD) in NGC 2264, a young (3 Myr), populous star forming region for which our optical studies have revealed a very high density of potential candidates -236 in <1 deg 2 -from the substellar limit down to at least ∼20 M Jup for zero reddening. Candidate BD were first selected using wide field (I, z) band imaging with CFH12K, by reference to current theoretical isochrones. Subsequently, 79 (33%) of the I, z sample were found to have near-infrared 2MASS photometry (JHK s ± 0.3 mag or better), yielding dereddened magnitudes and allowing further investigation by comparison with the location of NextGen and DUSTY isochrones in colourcolour and colour-magnitude diagrams involving various combinations of I, J, H and K s . We discuss the status and potential substellarity of a number of relatively unreddened (A v < ∼ 5) likely low-mass members in our sample, but in spite of the depth of our observations in I, z, we are as yet unable to unambiguously identify substellar candidates using only 2MASS data. Nevertheless, there are excellent arguments for considering two faint (observed I ∼ 18.4 and 21.2) objects as cluster candidates with masses respectively at or rather below the hydrogen burning limit. More current candidates could be proven to be cluster members with masses around 0.1 M via gravity-sensitive spectroscopy, and deeper near-infrared imaging will surely reveal a hitherto unknown population of young brown dwarfs in this region, accessible to the next generation of deep near-infrared surveys.

show abstract

A revisit to agglomerates of early‐type Hipparcos stars

Caballero

Dinís

2008

Astron Nachr

View full text Add to dashboard Cite

We study the spatial structure and sub-structure of regions rich in Hipparcos stars with blue B_T-V_T colours. These regions, which comprise large stellar complexes, OB associations, and young open clusters, are tracers of on-going star formation in the Galaxy. The DBSCAN (Density-Based Spatial Clustering of Applications with Noise) data clustering algorithm is used to look for spatial overdensities of early-type stars. Once an overdensity, "agglomerate", is identified, we carry out a data and bibliographic compilation of their star member candidates. The actual membership in agglomerate of each early-type star is studied based on its heliocentric distance, proper motion, and previous spectro-photometric information. We identify 35 agglomerates of early-type Hipparcos stars. Most of them are associated to previously known clusters and OB associations. The previously unknown P Puppis agglomerate is subject of a dedicated study with Virtual Observatory tools. It is actually a new, nearby, young open cluster (d ~ 470 pc, age ~ 20 Ma) with a clear radial density gradient. We list P Puppis and other six agglomerates (including NGC 2451 A, vdBH 23, and Trumpler 10) as new sites for substellar searches because of their youth, closeness, and spatial density. We investigate in detail the sub-structure in the Orion, CMa-Pup and Pup-Vel OB complexes ("super-agglomerates"). We confirm or discover some stellar overdensities in the Orion complex, like the 25 Ori group, the Horsehead region (including the sigma Orionis cluster), and the eta Orionis agglomerate. Finally, we derive accurate parallactic distances to the Pleiades, NGC 2451 A, and IC 2391, describe several field early-type stars at d < 200 pc, and discuss the incompleteness of our search.Comment: Accepted for publication in Astronomische Nachrichte

show abstract

Circumstellar Disk Candidates Identified in NGC 2264

Cited by 123 publications

References 31 publications

Stellar models simulating the disk-locking mechanism and the evolutionary history of the Orion Nebula cluster and NGC 2264

Stellar models simulating the disk-locking mechanism and the evolutionary history of the Orion Nebula cluster and NGC 2264

A deep, wide-field search for substellar members in NGC 2264

A revisit to agglomerates of early‐type Hipparcos stars

Contact Info

Product

Resources

About