Astronomy and Astrophysics, volume 559A, 3-3 (2013/11-1)
The low-mass stellar population in the young cluster Tr 37. Disk evolution, accretion, and environment.
SICILIA-AGUILAR A., KIM J.S., SOBOLEV A., GETMAN K., HENNING T. and FANG M.
Abstract (from CDS):
We present a study of accretion and protoplanetary disks around M-type stars in the 4 Myr-old cluster Tr 37. With a well-studied solar-type population, Tr 37 is a benchmark for disk evolution. We used low-resolution spectroscopy to identify and classify 141 members (78 new ones) and 64 probable members, mostly M-type stars. Hα emission provides information about accretion. Optical, 2MASS, Spitzer, and WISE data are used to trace the spectral energy distributions (SEDs) and search for disks. We construct radiative transfer models to explore the structures of full-disks, pre-transition, transition, and dust-depleted disks. Including the new members and the known solar-type stars, we confirm that a substantial fraction (∼2/5) of disks show signs of evolution, either as radial dust evolution (transition/pre-transition disks) or as a more global evolution (with low small-dust masses, dust settling, and weak/absent accretion signatures). Accretion is strongly dependent on the SED type. About half of the transition objects are consistent with no accretion, and dust-depleted disks have weak (or undetectable) accretion signatures, especially among M-type stars. The analysis of accretion and disk structure suggests a parallel evolution of dust and gas. We find several distinct classes of evolved disks, based on SED type and accretion status, pointing to different disk dispersal mechanisms and probably different evolutionary paths. Dust depletion and opening of inner holes appear to be independent processes: most transition disks are not dust-depleted, and most dust-depleted disks do not require inner holes. The differences in disk structure between M-type and solar-type stars in Tr 37 (4Myr old) are not as remarkable as in the young, sparse, Coronet cluster (1-2Myr old), suggesting that other factors, like the environment/interactions in each cluster, are likely to play an important role in the disk evolution and dispersal. Finally, we also find some evidence of clumpy star formation or mini-clusters within Tr 37.
stars: pre-main sequence - protoplanetary disks - stars: late-type
VizieR on-line data:
<Available at CDS (J/A+A/559/A3): tablea1.dat tablea2.dat tablea3.dat tablea4.dat tablea5.dat>
Table a1: [SKS2013] JHHMMSSss+DDMMSSs, [SKS2013] JHHMMSSsss+DDMMSSsss N=564.
Status at CDS:
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