Another deep dimming of the classical T Tauri star RW Aurigae A

Петров, П. П.; Gahm, G. F.; Djupvik, A. A.; Babina, E. V.; Artemenko, S. A.; Grankin, K. N.

doi:10.1051/0004-6361/201525845

Cited by 37 publications

(103 citation statements)

References 20 publications

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“…Using hydrodynamical modelling, Dai et al (2015) have shown that a tidal bridge between the two stars can obscure RW Aur A and that the column density might be sufficient to explain the dimming (as initially proposed by Rodriguez et al 2013). Petrov et al (2015) have suggested that the extinction could be due to an outburst of a stellar wind entrapping dust grains of the inner region of the disk. Finally, Schneider et al (2015b) have proposed that the observations could be explained by geometric variations in the inner disk, similarly to the AA Tau system (e.g.…”

Section: Introductionmentioning

confidence: 87%

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Violent environment of the inner disk of RW Aurigae A probed by the 2010 and 2015 dimming events

Facchini

Manara

Schneider

et al. 2016

A&A

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Aims. The young binary system RW Aur shows strong signatures of a recent tidal encounter between the circumprimary disk and the secondary star. The primary star has recently undergone two major dimming events (∆mag ≈ 2 in V band) whose origin is still under debate. To shed light on the mechanism leading to the dimming events, we study the extinction properties, accretion variability, and gas kinematics using absorption lines from the material that is obscuring RW Aur A. Methods. We compared our moderate-resolution X-shooter spectra of the dim state of RW Aur A with other spectral observations. In particular, we analysed archival high-resolution UVES spectra obtained during the bright state of the system to track the evolution of the spectral properties across the second dimming event. Since the X-shooter spectrum is flux calibrated, we provide new synthetic photometry of RW Aur A during the dim state. Results. The spectrum obtained during the dim state shows narrow absorption lines in the Na and K optical doublets, where the former is saturated. With a velocity of −60 km s −1 , these lines indicate that during the dim state the disk wind is either enhanced or significantly displaced into the line of sight. The photometric evolution across the dimming event shows a grey extinction, and is correlated with a significant reduction of the EW of all photospheric lines. Emission lines that trace accretion do not vary significantly across the dimming. Conclusions. From comparing our observations with complementary results from the last years, we conclude that the dimming event is related to a major perturbation on the inner disk. We suggest that the inner disk is occulting (most of) the star and thus its photosphere, but does not occult the accretion regions within a few stellar radii. Since observations of the outer disk indicate that the disk is modestly inclined (45)(46)(47)(48)(49)(50)(51)(52)(53)(54)(55)(56)(57)(58)(59)(60) • ), we propose that the inner disk might be warped by an as yet unseen (sub-) stellar companion, which may also explain the 2.77 day periodic variability of the spectral lines.

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Section: Introductionmentioning

confidence: 87%

“…RW Aur A has recently undergone two major dimming events (Rodriguez et al 2013;Petrov et al 2015). The first one lasted for ∼180 days, with a dimming of 1.5−2 mag in the V band (Rodriguez et al 2013).…”

Section: Introductionmentioning

confidence: 99%

Violent environment of the inner disk of RW Aurigae A probed by the 2010 and 2015 dimming events

Facchini

Manara

Schneider

et al. 2016

A&A

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“…However, the occultation timescales of the dips (e.g., 5 days) are relatively long compared with the crossing timescale of an inner disk warp at the co-rotation radius. Alternative explanations, such as the dust being located in disk winds at larger radii, rather than in the disk itself, could explain the long survival time of the dust (Bans & Königl 2012;Petrov et al 2015Petrov et al , 2017.…”

Section: The Extinction Curve Of the Dips Of Gi Taumentioning

confidence: 99%

“…The disk interpretation is challenged in one case (J1604-2130) by the measurement of a face-on inclination of an outer disk (Ansdell et al 2016a). In a second case (RW Aur), the occultation source is uncertain and may be a dusty wind (Petrov et al 2015;Schneider et al 2015b), a tidal encounter of the secondary star (Dai et al 2015), the combination of occultation and time-variable accretion (Takami et al 2016), or partial occultation of the inner disk (Facchini et al 2016).…”

Section: Introductionmentioning

confidence: 99%

Star–Disk Interactions in Multiband Photometric Monitoring of the Classical T Tauri Star GI Tau

Guo

Herczeg

Jose

et al. 2018

ApJ

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The variability of young stellar objects is mostly driven by star-disk interactions. In long-term photometric monitoring of the accreting T Tauri star GI Tau, we detect extinction events with typical depths of DṼ 2.5 mag that last for days to months and often appear to occur stochastically. In 2014-2015, extinctions that repeated with a quasi-period of 21 days over several months are the first empirical evidence of slow warps predicted by magnetohydrodynamic simulations to form at a few stellar radii away from the central star. The reddening is consistent with =  R 3.85 0.5 V and, along with an absence of diffuse interstellar bands, indicates that some dust processing has occurred in the disk. The 2015-2016 multiband light curve includes variations in spot coverage, extinction, and accretion, each of which results in different traces in color-magnitude diagrams. This light curve is initially dominated by a month-long extinction event and a return to the unocculted brightness. The subsequent light curve then features spot modulation with a 7.03 day period, punctuated by brief, randomly spaced extinction events. The accretion rate measured from U-band photometry ranges from´-1.3 10 8 to´-1.1 10 10 M e yr −1 (excluding the highest and lowest 5% of high-and low-accretion rate outliers), with an average of4.7 -10 9 M e yr −1 . A total of 50% of the mass is accreted during bursts of >´-12.8 10 9 M e yr -1, which indicates limitations on analyses of disk evolution using single-epoch accretion rates.

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“…It is possible that the occulting body may be a warp or perturbation in the surrounding disk, but this would require a close to edge-on geometry. It is possible that we are seeing a fluctuation in the inner disk structure or that winds have pushed material from the disk plane across our lineof-sight (Natta & Whitney 2000;Nelson et al 2000;Petrov et al 2015). However, we find no evidence for high disk winds in our TRES spectra.…”

Section: Discussionmentioning

confidence: 57%

The Mysterious Dimmings of the T Tauri Star V1334 Tau

Rodriguez

Zhou

Cargile

et al. 2017

ApJ

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We present the discovery of two extended ∼0.12 mag dimming events of the weak-lined T Tauri star V1334. The start of the first event was missed but came to an end in late 2003, and the second began in 2009 February, and continues as of 2016 November. Since the egress of the current event has not yet been observed, it suggests a period of >13 years if this event is periodic. Spectroscopic observations suggest the presence of a small inner disk, although the spectral energy distribution shows no infrared excess. We explore the possibility that the dimming events are caused by an orbiting body (e.g., a disk warp or dust trap), enhanced disk winds, hydrodynamical fluctuations of the inner disk, or a significant increase in the magnetic field flux at the surface of the star. We also find a ∼0.32 day periodic photometric signal that persists throughout the 2009 dimming which appears to not be due to ellipsoidal variations from a close stellar companion. High-precision photometric observations of V1334 Tau during K2 campaign 13, combined with simultaneous photometric and spectroscopic observations from the ground, will provide crucial information about the photometric variability and its origin.

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Another deep dimming of the classical T Tauri star RW Aurigae A

Cited by 37 publications

References 20 publications

Violent environment of the inner disk of RW Aurigae A probed by the 2010 and 2015 dimming events

Violent environment of the inner disk of RW Aurigae A probed by the 2010 and 2015 dimming events

Star–Disk Interactions in Multiband Photometric Monitoring of the Classical T Tauri Star GI Tau

The Mysterious Dimmings of the T Tauri Star V1334 Tau

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