Radial velocity variations in the young eruptive star EX Lupi

Kóspál, Á.; Mohler-Fischer, M.; Sicilia‐Aguilar, A.; Ábrahám, P.; Curé, M.; Henning, Th.; Kiss, Cs.; Launhardt, R.; Moór, A.; Müller, André

doi:10.1051/0004-6361/201322428

Cited by 26 publications

(41 citation statements)

References 76 publications

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“…Weaker narrow emission lines are noisier, although they are consistent with the same modulation. Kóspál et al (2014) noted that the NC of the emission lines shows RV patterns that are off-phase with respect to Fig. 3.…”

Section: Analysis Of the Narrow Componentmentioning

confidence: 72%

“…Such a spot would also produce a luminosity modulation that is not observed in the photometry records. Kóspál et al (2014) assumed that the spot would suffer occultations as the star rotates, which would increase the luminosity contrast, but a high-latitude spot visible at all times would not induce dramatic variations in the luminosity. In addition, if most or a large fraction of the energy released in the shock structure is emitted in lines (including many metallic UV lines) and not in the optical continuum, photometric rotational modulations may not be evident, while RV modulations would be significantly enhanced with respect to the continuumonly scenario.…”

Section: Critical Revision Of the Origin Of The Line And Rv Modulationsmentioning

confidence: 99%

“…The photospheric absorption lines during quiescence show a strong radial velocity (RV) modulation, which has been interpreted as being caused by a brown dwarf (BD) companion, although hot-spot-induced RV signatures could not be excluded (Kóspál et al 2014;hereafter K14). There are several precedents of objects where the RV initially suggested the presence of a companion, which was later ruled out as a signal caused by accretion and/or strong activity, such as RW Auriga (Gahm et al 1999;Petrov et al 2001;) and RU Lupi (Stempels et al 2007;Gahm et al 2013).…”

Section: Introductionmentioning

confidence: 99%

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Accretion dynamics of EX Lupi in quiescence

Sicilia‐Aguilar¹,

Fang²,

Roccatagliata³

et al. 2015

A&A

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Context. EX Lupi is a young, accreting M0 star and the prototype of EXor variable stars. Its spectrum is very rich in emission lines, including many metallic lines with narrow and broad components. The presence of a close companion has also been proposed, based on radial velocity signatures. Aims. We use the metallic emission lines to study the accretion structures and to test the companion hypothesis. Methods. We analyse 54 spectra obtained during five years of quiescence time. We study the line profile variability and the radial velocity of the narrow and broad metallic emission lines. We use the velocity signatures of different species with various excitation conditions and their time dependency to track the dynamics associated with accretion. Results. We observe periodic velocity variations in the broad and the narrow line components, consistent with rotational modulation. The modulation is stronger for lines with higher excitation potentials (e.g. He II), which are likely produced in a confined area very close to the accretion shock. Conclusions. We propose that the narrow line components are produced in the post-shock region, while the broad components originate in the more extended, pre-shock material in the accretion column. All the emission lines suffer velocity modulation due to the rotation of the star. The broad components are responsible for the line-dependent veiling observed in EX Lupi. We demonstrate that a rotationally modulated line-dependent veiling can explain the radial velocity signature of the photospheric absorption lines, making the close-in companion hypothesis unnecessary. The accretion structure is locked to the star and very stable during the five years of observations. Not all stars with similar spectral types and accretion rates show the same metallic emission lines, which could be related to differences in temperature and density in their accretion structure(s). The contamination of photospheric signatures by accretion-related processes can be turned into a very useful tool for determining the innermost details of the accretion channels in the proximity of the star. The presence of emission lines from very stable accretion columns will nevertheless be a very strong limitation for the detection of companions by radial velocity in young stars, given the similarity of the accretion-related signatures with those produced by a companion.

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Section: Analysis Of the Narrow Componentmentioning

confidence: 72%

Section: Critical Revision Of the Origin Of The Line And Rv Modulationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Accretion dynamics of EX Lupi in quiescence

Sicilia‐Aguilar¹,

Fang²,

Roccatagliata³

et al. 2015

A&A

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“…Many efforts have been made to identify a possible binary companion around EX Lup (Ghez et al 1997;Bailey 1998;Kóspál et al 2014). Kóspál et al (2014) detect a radial velocity signal that can be described by a companion with an m sin i = 14.7 ± 0.7 M Jup (0.018 M assuming an inclination of 50 • located 0.06 au from the primary. Sicilia-Aguilar et al (2015) however, show that the same signal can also be reproduced by a rotating, line-dependent veiling from an accretion column, without the need of a stellar companion.…”

Section: Nature Of the Asymmetry And Connection With The Exor Outburstmentioning

confidence: 99%

The Circumstellar Disk and Asymmetric Outflow of the EX Lup Outburst System

Hales

Pérez

Saito

et al. 2018

ApJ

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We present Atacama Large Millimeter/submillimeter Array (ALMA) observations at 0.3 -resolution of EX Lup, the prototype of the EXor class of outbursting pre-main sequence stars. The circumstellar disk of EX Lup is resolved for the first time in 1.3 mm continuum emission and in the J=2-1 spectral line of three isotopologues of CO. At the spatial resolution and sensitivity achieved, the compact dust continuum disk shows no indications of clumps, fragments, or asymmetries above 5-sigma level. Radiative transfer modeling constrains the characteristic radius of the dust disk to 23 au and a total dust mass of 1.0×10 −4 M (33 M ⊕ ), similar to other EXor sources. The 13 CO and C 18 O line emission trace the disk rotation and are used to constrain the disk geometry, kinematics, and a total gas disk mass of 5.1×10 −4 M . The 12 CO emission extends out to a radius of 200 au and is asymmetric, with one side deviating from Keplerian rotation. We detect blue-shifted, 12 CO arc-like emission located 0.8 to the north-west, and spatially disconnected from the disk emission. We interpret this extended structure as the brightened walls of a cavity excavated by an outflow, which are more commonly seen in FUor sources. Such outflows have also been seen in the borderline FU/EXor object V1647 Ori, but not towards EXor objects. Our detection provides evidence that the outflow phenomenon persists into the EXor phase, suggesting that FUor and EXor objects are a continuous population in which outflow activity declines with age, with transitional objects such as EX Lup and V1647 Ori.

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“…Bright accretion spots on classical T Tauri stars can in principle create the same apparent RV signal as dark spots (e.g., Kóspál et al 2014;Sicilia-Aguilar et al 2015). Accretion hot spots which produce veiling on CTTSs typically have temperatures ∼ 10, 000 K and produce a largely featureless continuum (Hartigan et al 1989;Basri & Batalha 1990;Hartigan et al 1991;Valenti et al 1993).…”

Section: The Role Of Accretion Hot Spotsmentioning

confidence: 99%

A Candidate Young Massive Planet in Orbit Around the Classical T Tauri Star Ci Tau*

Johns–Krull

McLane

Prato

et al. 2016

ApJ

129

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The ∼2 Myr old classical T Tauri star CI Tau shows periodic variability in its radial velocity (RV) variations measured at infrared (IR) and optical wavelengths. We find that these observations are consistent with a massive planet in a ∼ 9-day period orbit. These results are based on 71 IR RV measurements of this system obtained over 5 years, and on 26 optical RV measurements obtained over 9 years. CI Tau was also observed photometrically in the optical on 34 nights over ∼one month in 2012. The optical RV data alone are inadequate to identify an orbital period, likely the result of star spot and activity induced noise for this relatively small dataset. The infrared RV measurements reveal significant periodicity at ∼9 1 This paper includes data taken at The McDonald Observatory of The University of Texas at Austin.

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Radial velocity variations in the young eruptive star EX Lupi

Cited by 26 publications

References 76 publications

Accretion dynamics of EX Lupi in quiescence

Accretion dynamics of EX Lupi in quiescence

The Circumstellar Disk and Asymmetric Outflow of the EX Lup Outburst System

A Candidate Young Massive Planet in Orbit Around the Classical T Tauri Star Ci Tau*

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