2012
DOI: 10.1051/0004-6361/201015326
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Spitzerobservations of NGC 2264: the nature of the disk population

Abstract: Aims. NGC 2264 is a young cluster with a rich circumstellar disk population which makes it an ideal target for studying the evolution of stellar clusters. Our goal is to study the star formation history of NGC 2264 and to analyse the primordial disk evolution of its members. Methods. The study presented is based on data obtained with the Infrared Array Camera (IRAC) and the Multiband Imaging Photometer for Spitzer (MIPS) on board the Spitzer Space Telescope, combined with deep near-infrared (NIR) ground-based … Show more

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Cited by 57 publications
(104 citation statements)
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References 81 publications
(149 reference statements)
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“…We compare our findings to studies of transition discs with near-to mid-infrared emission recently discovered by the Spitzer and AKARI surveys (e.g. Fujiwara et al 2013;Maaskant et al 2013;Espaillat et al 2010Espaillat et al , 2011Muzerolle et al 2010;Teixeira et al 2012;Furlan et al 2009) to investigate the evolutionary state of the disc candidates in the Arches and Quintuplet clusters. The problem of the disc lifetime is addressed, and secondary disc formation will be proposed as a possible scenario to explain the Arches and Quintuplet nearinfrared excess sources and their apparent expanded lifetime compared to primordial discs around Herbig Be stars.…”
Section: Discs In the Arches Clustermentioning
confidence: 73%
“…We compare our findings to studies of transition discs with near-to mid-infrared emission recently discovered by the Spitzer and AKARI surveys (e.g. Fujiwara et al 2013;Maaskant et al 2013;Espaillat et al 2010Espaillat et al , 2011Muzerolle et al 2010;Teixeira et al 2012;Furlan et al 2009) to investigate the evolutionary state of the disc candidates in the Arches and Quintuplet clusters. The problem of the disc lifetime is addressed, and secondary disc formation will be proposed as a possible scenario to explain the Arches and Quintuplet nearinfrared excess sources and their apparent expanded lifetime compared to primordial discs around Herbig Be stars.…”
Section: Discs In the Arches Clustermentioning
confidence: 73%
“…Figure 16 shows the mass accretion rate distribution inferred for a population of 236 high-confidence NGC 2264 members, as a function of stellar mass, whose range extends down to ∼0.1 M and up to ∼1.5 M . These objects have been classified as CTTS, i.e., accreting objects, as opposed to WTTS among the PMS population analyzed so far, based on spectroscopic criteria (H α EW, H α width at 10% intensity) and/or photometric criteria (significant UV excess from the CFHT sample, α IRAC value consistent with Class II sources from the data of Teixeira et al 2012, large variability from the CFHT photometry; see Venuti et al, in prep., for this last point). The accretion parameters for these objects are reported in Table 4.…”
Section: Accretion Luminosity and Mass Accretion Ratesmentioning
confidence: 99%
“…Solid curves refer to masses and ages obtained with our models, dotted curves refer to masses and ages obtained with the models of Siess et al (2000). we therefore used Spitzer IRAC data kindly provided by Paula Teixeira (Teixeira et al 2012), who classified the circumstellar disks of NGC 2264 stars based on their spectral energy distribution slope between 3.6 μm and 8 μm, defined as α IRAC . 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.…”
Section: Ngc 2264 Stars -Hypothesismentioning
confidence: 99%
“…To relate this Hα index to some physical property, Lamm (2003) and Lamm et al (2004) (2003), for ctts and wtts the Hα-index values agree well with the W λ (Hα) measurements by Rebull et al (2002) and Dahm & Simon (2005 Unfortunately, the only observational disk indicator for which we have measurements for all stars is Δ[R c − Hα], and this indicator is inconclusive for more than half of our sample stars, classifying 210 objects as intermediate cases. To distinguish these stars as objects with and without disks, we also used the α IRAC index reported by Teixeira et al (2012). Of the 405 stars of our sample, 170 have α IRAC measurements, 75 have α IRAC > −2.56 (indicating that they have dust in the inner disk) and 95 have α IRAC ≤ −2.56 (indicating that they have naked photospheres).…”
Section: As Inmentioning
confidence: 99%