L. Spezzi scite author profile

We present VLT/X-shooter observations of a sample of 36 accreting low-mass stellar and substellar objects (YSOs) in the Lupus star-forming region, spanning a range in mass from ∼0.03 to ∼1.2 M , but mostly with 0.1 M < M < 0.5 M . Our aim is twofold: firstly, to analyse the relationship between excess-continuum and line emission accretion diagnostics, and, secondly, to investigate the accretion properties in terms of the physical properties of the central object. The accretion luminosity (L acc ), and in turn the accretion rate (Ṁ acc ), was derived by modelling the excess emission from the UV to the near-infrared as the continuum emission of a slab of hydrogen. We computed the flux and luminosity (L line ) of many emission lines of H , He , and Ca ii, observed simultaneously in the range from ∼330 nm to 2500 nm. The luminosity of all the lines is well correlated with L acc . We provide empirical relationships between L acc and the luminosity of 39 emission lines, which have a lower dispersion than relationships previously reported in the literature. Our measurements extend the Paβ and Brγ relationships to L acc values about two orders of magnitude lower than those reported in previous studies. We confirm that different methodologies of measuring L acc andṀ acc yield significantly different results: Hα line profile modelling may underestimateṀ acc by 0.6 to 0.8 dex with respect toṀ acc derived from continuum-excess measures. These differences may explain the probably spurious bi-modal relationships betweenṀ acc and other YSOs properties reported in the literature. We derivedṀ acc in the range 2 × 10 −12 -4 × 10 −8 M yr −1 and conclude thatṀ acc ∝ M 1.8(±0.2) , with a dispersion lower by a factor of about 2 than in previous studies. A number of properties indicate that the physical conditions of the accreting gas are similar over more than 5 orders of magnitude inṀ acc , confirming previous suggestions that the geometry of the accretion flow controls the rate at which the disc material accretes onto the central star.

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TheSpitzerc2d Survey of Large, Nearby, Interstellar Clouds. XI. Lupus Observed with IRAC and MIPS

Merın¹,

Jørgensen²,

Spezzi³

et al. 2008

ASTROPHYS J SUPPL S

158

329

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We present c2d Spitzer/IRAC observations of the Lupus I, III and IV dark clouds and discuss them in combination with optical and near-infrared and c2d MIPS data. With the Spitzer data, the new sample contains 159 stars, 4 times larger than the previous one. It is dominated by low-and very-low mass stars and it is complete down to M ≈ 0.1M ⊙ . We find 30-40% binaries with separations between 100 to 2000 AU with no apparent effect in the disk properties of the members. A large majority of the objects are Class II or Class III objects, with only 20 (12%) of Class I or Flat spectrum sources. The disk sample is complete down to "debris"-like systems in stars as small as M ≈ 0.2 M ⊙ and includes sub-stellar objects with larger IR excesses. The disk fraction in Lupus is 70 -80%, consistent with an age of 1 -2 Myr. However, the young population contains 20% optically thick accretion disks and 40% relatively less flared disks. A growing variety of inner disk structures is found for larger inner disk clearings for

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ASPITZERc2d LEGACY SURVEY TO IDENTIFY AND CHARACTERIZE DISKS WITH INNER DUST HOLES

Merın

Brown

Oliveira

et al. 2010

ApJ

134

222

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TheSpitzerc2d Survey of Large, Nearby, Interstellar Clouds. X. The Chamaeleon II Pre–Main‐Sequence Population as Observed with IRAC and MIPS

Alcalá

Spezzi

Chapman

et al. 2008

ApJ

179

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We discuss the results from the combined IRAC and MIPS c2d Spitzer Legacy survey observations and complementary optical and NIR data of the Chamaeleon II (Cha II ) dark cloud. We perform a census of the young population in an area of $1.75 deg 2 and study the spatial distribution and properties of the cloud members and candidate preY main-sequence ( PMS) objects and their circumstellar matter. Our census is complete down to the substellar regime (M % 0:03 M ). From the analysis of the volume density of the PMS objects and candidates we find two groups of objects with volume densities higher than 25 M pc À3 and 5Y10 members each. A multiplicity fraction of about 13% AE 3% is observed for objects with separations 0:8 00 < < 6:0 00 (142Y1065 AU ). No evidence for variability between the two epochs of the c2d IRAC data set, Át $ 6 hr, is detected. We estimate a star formation efficiency of 1%Y4%, consistent with the estimates for Taurus and Lupus, but lower than for Cha I. This might mean that different star formation activities in the Chamaeleon clouds reflect a different history of star formation. We also find that Cha II is turning some 6Y7 M into stars every Myr, which is low in comparison with the star formation rate in other c2d clouds. The disk fraction of 70%Y80% that we estimate in Cha II is much higher than in other star-forming regions and indicates that the population in this cloud is dominated by objects with active accretion. Finally, the Cha II outflows are discussed; a new Herbig-Haro outflow, HH 939, driven by the classical T Tauri star Sz 50, has been discovered.

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The Young Population of the Chamaeleon II Dark Cloud

Spezzi

Alcalá

Covino

et al. 2008

ApJ

187

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We discuss the results of the optical spectroscopic follow-up of preYmain-sequence ( PMS) objects and candidates selected in the Chamaeleon II dark cloud based on data from the Spitzer Legacy survey ''From Molecular Cores to Planet Forming Disks'' (c2d) and from previous surveys. Our sample includes both objects with infrared excess selected according to c2d criteria and referred to as young stellar objects and other cloud members and candidates selected from complementary optical and near-infrared data. We characterize the sample of objects by deriving their physical parameters. The vast majority of objects have masses M 1 M and ages <6 Myr. Several of the PMS objects and candidates lie very close to or below the hydrogen-burning limit. A first estimate of the slope of the initial mass function in Cha II is consistent with that of other T associations. The star formation efficiency in the cloud (1%Y4%) is consistent with our own estimates for Taurus and Lupus, but significantly lower than for Cha I. This might mean that different star formation activities in the Chamaeleon clouds may reflect a different history of star formation. We also find that the Cha II cloud is turning some 8 M into stars every megayear, which is less than the star formation rate in the other c2d clouds. However, the star formation rate is not steady and evidence is found that the star formation in Cha II might have occurred very rapidly. The H emission of the Cha II PMS objects, as well as possible correlations between their stellar and disk properties, is also investigated.

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L. Spezzi

X-shooter spectroscopy of young stellar objects

TheSpitzerc2d Survey of Large, Nearby, Interstellar Clouds. XI. Lupus Observed with IRAC and MIPS

ASPITZERc2d LEGACY SURVEY TO IDENTIFY AND CHARACTERIZE DISKS WITH INNER DUST HOLES

TheSpitzerc2d Survey of Large, Nearby, Interstellar Clouds. X. The Chamaeleon II Pre–Main‐Sequence Population as Observed with IRAC and MIPS

The Young Population of the Chamaeleon II Dark Cloud

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