A new insight into the variability of V1184 Tauri

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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“…Bouvier et al 2013), or possibly in the V1184 Tau system (e.g. Giannini et al 2016). These scenarios are more thoroughly described in Sect.…”

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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“…As shown in Fig. 3 of Giannini et al (2016b), an increase in temperature of the blackbody component in the SED of the HBe during the outburst phase might well explain the variation in colors perpendicular to the interstellar reddening vector.…”

Section: Spectro-photometric Variabilitymentioning

confidence: 80%

The 2008 outburst in the young stellar system Z CMa

Bonnefoy

Chauvin

Dougados

et al. 2017

A&A

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Context. Z CMa is a complex pre-main sequence binary with a current separation of 110 mas, known to consist of an FU Orionis star (SE component) and an embedded Herbig Be star (NW component). Although it represents a well-studied and characterized system, the origin of photometric variabilities, the component properties, and the physical configuration of the system remain mostly unknown. Aims. Immediately when the late-2008 outburst of Z CMa was announced to the community, we initiated a high angular resolution imaging campaign aimed at characterizing the outburst state of both components of the system in the near-infrared. Methods. We used the VLT/NACO and the Keck/NIRC2 near-infrared adaptive optics instrument to monitor the astrometric position and the near-infrared photometry of the Z CMa components during the outburst phase and one year after. The VLT/SINFONI and Keck/OSIRIS integral field spectroscrographs were in addition used to characterize for the first time the resolved spectral properties of the FU Orionis and the Herbig Be component during and after the outburst. Results. We confirm that the NW star dominates the system flux in the 1.1-3.8 µm range and is responsible for the photometric outburst. We extract the first medium-resolution (R∼2000-4000) near-infrared (1.1-2.4 µm) spectra of the individual components. The SE component has a spectrum typical of FU Orionis objects. The NW component spectrum is characteristic of embedded outbursting protostars and EX Or objects. It displays numerous emission lines whose intensity correlates with the system activity. In particular, we find a correlation between the Brγ equivalent width and the system brightness. The bluing of the continuum of the NW component along with the absolute flux and color-variation of the system during the outburst suggests that the outburst was caused by a complex interplay between a variation of the extinction in the line of sight of the NW component on one hand, and the emission of shocked regions close to the NW component on the other. We confirm the recently reported wiggling of the SE component jet from [FeII] line emission. We find a point-like structure associated with a peak emission at 2.098µm coincidental with the clump or arm seen in broadband polarization differential imaging as well as additional diffuse emission along a PA=214• . The origin of these two structures is unclear and deserves further investigation.

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“…1 the light curves of some objects usually classified as UXors are presented: GM Cep, V1184 Tau, and V2492 Cyg. Out of these, GM Cep shows an almost stable high-level state with roughly periodical dimmings, while V1184 Tau presents a slowly increasing and then decreasing light curve with superimposed lower amplitude variations that could be ascribed to accretion events (Giannini et al, 2016). V2492 Cyg also shows periodical, semi-regular variations that are likely due to either extinction or accretion phenomena (Hillenbrand et al, 2013).…”

Section: Light Curvesmentioning

confidence: 99%

Automatic Detection of Accretion Bursts in Young Stellar Objects: a New Algorithm for Long--Term Sky Surveys

Strafella,

Altavilla,

Giannini

et al. 2022

Preprint

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Young stellar objects in their pre-main sequence phase are characterized by irregular changes in brightness, generally attributed to an increase of the mass accretion rate due to various kind of instabilities occurring in the circumstellar disk. In the era of large surveys aimed to monitor the sky, we present a pipeline to detect irregular bursts, in particular EXors-like ( EX Lupi type eruptive variables), in the light curves. The procedure follows a heuristic approach and is tested against the light curves already collected for a few objects presently recognized as bona fide or candidate EXors.

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A new insight into the variability of V1184 Tauri

Cited by 6 publications

References 35 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

The 2008 outburst in the young stellar system Z CMa

Automatic Detection of Accretion Bursts in Young Stellar Objects: a New Algorithm for Long--Term Sky Surveys

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