Rotation-disk connection for very low mass and substellar objects in the Orion Nebula Cluster

Rodríguez-Ledesma, M. V.; Mundt, R.; Eislöffel, J.

doi:10.1051/0004-6361/200913494

Cited by 21 publications

(27 citation statements)

References 45 publications

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“…Several previous studies have claimed to find evidence that the correlation between disk presence and rotation was strongest for "high-mass" stars and was weaker or not present for very low-mass stars or brown dwarfs (Lamm et al 2005;Rodríguez-Ledesma et al 2010;Davies et al 2014;Scholz et al 2015). Our data do not support that conclusion.…”

Section: Comparison To Previous Studiescontrasting

confidence: 99%

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Rotation of Low-mass Stars in Upper Scorpius and ρ Ophiuchus with K2

et al. 2018

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We present an analysis of K2 light curves (LCs) for candidate members of the young Upper Sco (USco) association (∼8 Myr) and the neighboring ρ Oph embedded cluster (∼1 Myr). We establish ∼1300 stars as probable members, ∼80% of which are periodic. The phased LCs have a variety of shapes which can be attributed to physical causes ranging from stellar pulsation and stellar rotation to disk-related phenomena. We identify and discuss a number of observed behaviors. The periods are ∼0.2-30 days with a peak near 2 days and the rapid period end nearing breakup velocity. M stars in the young USco region rotate systematically faster than GK stars, a pattern also present in K2 data for the older Pleiades and Praesepe systems. At higher masses (types FGK), the well-defined period-color relationship for slowly rotating stars seen in the Pleiades and Praesepe systems is not yet present in USco. Circumstellar disks are present predominantly among the more slowly rotating M stars in USco, with few disks in the subday rotators. However, M dwarfs with disks rotate faster on average than FGK systems with disks. For four of these disked M dwarfs, we provide direct evidence for disk locking based on the K2 LC morphologies. Our preliminary analysis shows a relatively mass-independent spin-up by a factor of ∼3.5 between USco and the Pleiades, then mass-dependent spin-down between Pleiades and Praesepe.

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Section: Comparison To Previous Studiescontrasting

confidence: 99%

“…There have been many papers devoted to that goal, primarily using data from the Orion Nebula Cluster or NGC2264 (e.g., Rebull et al 2006;Cieza & Baliber 2007;Biazzo et al 2009;Rodríguez-Ledesma et al 2010;Dahm et al 2012;Davies et al 2014;Venuti et al 2017). Those studies generally find evidence claimed to be supportive of disk locking.…”

Section: Contextmentioning

confidence: 99%

Rotation of Low-mass Stars in Upper Scorpius and ρ Ophiuchus with K2

et al. 2018

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“…Potentially, variability explores the young stars in the field population. Recent studies on PMS variable census allowed to probe rotation rates in the few Myrs young to several Myrs old clusters those include the Orion Nebula Cluster (Stassun et al 1999;Herbst et al 2002;Rodríguez-Ledesma et al 2010), Chamaeleon I (Joergens et al 2003), IC 348 (Cohen et al 2004), σ Orionis (Scholz & Eislöffel 2004;Cody & Hillenbrand 2010), NGC 2264 (Makidon et al 2004;Lamm et al 2005), NGC 2362 (Irwin et al 2008) and Taurus (Nguyen et al 2009). However, variability alone is not sufficient evidence to identify the young members, and sometimes might be false positive.…”

Section: Introductionmentioning

confidence: 99%

Optical photometric variable stars towards the Galactic H ii region NGC 2282

Dutta

Mondal

Joshi

et al. 2018

Monthly Notices of the Royal Astronomical Society

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We report here CCD I-band time-series photometry of a young (2−5 Myr) cluster NGC 2282 to identify and understand the variability of premain-sequence (PMS) stars. The I-band photometry, down to ∼ 20.5 mag, enables us to probe the variability towards the lower mass end (∼ 0.1 M ⊙ ) of the PMS stars. From the light curves of 1627 stars, we identified 62 new photometric variable candidates. Their association with the region was established from Hα emission and infrared (IR) excess. Among 62 variables, 30 young variables exhibit Hα emission, near-IR (NIR)/mid-IR (MIR) excess or both, and they are candidate members of the cluster. Out of 62 variables, 41 are periodic variables with the rotation rate ranging from 0.2 to 7 days. The period distribution exhibits a median period at ∼ 1-day as in many young clusters (e.g., NGC 2264, ONC, etc.), but it follows a uni-modal distribution unlike others having bimodality with the slow rotators peaking at ∼ 6−8 days. To investigate the rotation-disk and variability-disk connection, we derived NIR excess from ∆(I−K) and MIR excess from Spitzer [3.6]−[4.5] µm data. No conclusive evidence of slow rotation with the presence of disks around stars and fast rotation for diskless stars is obtained from our periodic variables. A clear increasing trend of the variability amplitude with the IR excess is found for all variables.

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“…Since ∆(Ic − Ks) is sensitive to the inner part of the disc, we also used the available MIR data of these variables to compute an MIR index [[3.6] − [4.5]], which is a better indicator of the presence of disc and its evolution (Lada et al 2000;Rodríguez-Ledesma et al 2010). Since the presence of disc also induces the accretion activity, we have also used the information such as the disc accretion rate and the disc mass obtained from the SED fitting tool (cf.…”

Section: Correlation Of Periods/amplitudes Of Pms Variables With Discmentioning

confidence: 99%

“…The disc-locking mechanism can also be verified by checking the correlation of rotation periods with disc indicators such as: ∆(Ic − Ks), ∆(H − Ks), [[3.6] − [4.5]], Hα emission etc. (Herbst et al 2002;Rodríguez-Ledesma et al 2010). Correlation of rotation period of PMS stars with different stellar properties (age, mass, accretion rate etc.)…”

Section: Introductionmentioning

confidence: 99%

Variable stars in the Sh 2-170 H ii region

Sinha

Sharma

Pandey

et al. 2020

Monthly Notices of the Royal Astronomical Society

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We present multi-epoch deep (∼20 mag) I c band photometric monitoring of the Sh 2-170 star-forming region to understand the variability properties of pre-main-sequence (PMS) stars. We report identification of 47 periodic and 24 non-periodic variable stars with periods and amplitudes ranging from ∼4 hrs to 18 days and from ∼0.1 to 2.0 mag, respectively. We have further classified 49 variables as PMS stars (17 Class ii and 32 Class iii) and 17 as main-sequence (MS)/field star variables. A larger fraction of MS/field variables (88%) show periodic variability as compared to the PMS variables (59%). The ages and masses of the PMS variable stars are found to be comparable with those of T-Tauri stars. Their variability amplitudes show an increasing trend with the near-IR/mid-IR excess. The period distribution of the PMS variables shows two peaks, one near ∼1.5 days and the other near ∼4.5 days. It is found that the younger stars with thicker discs and envelopes seem to rotate slower than their older counterparts. These properties of the PMS variables support the disc-locking mechanism. Both the period and amplitude of PMS stars show decrease with increasing mass probably due to the effective dispersal of circumstellar discs in massive stars. Our results favour the notion that cool spots on weak line T-Tauri stars are responsible for most of their variations, while hot spots on classical T-Tauri stars resulting from variable mass accretion from an inner disc contribute to their larger amplitudes and irregular behaviours.

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Rotation-disk connection for very low mass and substellar objects in the Orion Nebula Cluster

Cited by 21 publications

References 45 publications

Rotation of Low-mass Stars in Upper Scorpius and ρ Ophiuchus with K2

Rotation of Low-mass Stars in Upper Scorpius and ρ Ophiuchus with K2

Optical photometric variable stars towards the Galactic H ii region NGC 2282

Variable stars in the Sh 2-170 H ii region

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