Ellipsoidal primary of the RS CVn binary<i>ζ</i> Andromedae

We present a multi-epoch time-resolved high-resolution optical spectroscopy study of the short-period (P orb = 11.2 hr) eclipsing M0V+M5V RS CVn binary V405 Andromeda. By means of indirect imaging techniques, namely Doppler imaging, we study the surface activity features of the M0V component of the system. A modified version of a Doppler imaging code, which takes into account the tidal distortion of the surface of the star, is applied to the multi-epoch data set in order to provide indirect images of the stellar surface. The multi-epoch surface brightness distributions show a low intensity "belt" of spots at latitudes ±40• and a noticeable absence of high latitude features or polar spots on the primary star of V405 Andromeda. They also reveal slow evolution of the spot distribution over ∼4 yr. An entropy landscape procedure is used in order to find the set of binary parameters that lead to the smoothest surface brightness distributions. As a result, we find M 1 = 0.51 ± 0.03 M , M 2 = 0.21 ± 0.01 M , R 1 = 0.71 ± 0.01 R , and an inclination i = 65• ± 1• . The resulting systemic velocity is distinct for different epochs, raising the possibility of the existence of a third body in the system.

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“…These features are common in Doppler imaging of RS CVn binaries, as can be seen in recent reconstructions of ζ And (Korhonen et al 2010).…”

Section: Doppler Imagingmentioning

confidence: 60%

V405 Andromeda Revisited

Ribeiro

Baptista

Kafka

2011

The Astronomical Journal

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“…Strassmeier 2000;Weber & Strassmeier 1998;Korhonen et al 2010). A constant cool polar region with a tem-perature of ∼3500 K is present on the maps of many such stars (Oláh et al 2002;García-Alvarez et al 2003;Strassmeier 2000;Weber & Strassmeier 1998;Korhonen et al 2010). In these papers, however, it is noted that the polar region can be an artefact due to the limitations of the applied technique, because in the spectral line profile at zero relative radial velocity the line is identified with the core, which, first, may be described poorly by the model and, second, has a signal-to-noise ratio smaller than that averaged over the spectrum.…”

mentioning

confidence: 99%

“…However, its radius is much smaller than that in our model and does not exceed 20 • . Comparison of the surface maps for such stars shows that cool spots are present not only in the polar regions but also on the remaining stellar surface, occupying a significant fraction of the visible hemisphere (Korhonen et al 2010). However, the distribution of these spots is more or less uniform, so that their relative area on the visible hemisphere remains almost constant; as a consequence, there no modulation with the stellar rotation.…”

mentioning

confidence: 99%

Spotted Surface Structure of the Active Giant PZ Mon

Pakhomov¹,

Antonyuk²,

Bondar³

et al. 2018

Astron. Lett.

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Based on our photometric observations in 2015-2016 and archival photometric data for the active red giant PZ Mon, we have found the main characteristics of the stellar surface: the unspotted surface temperature T e f f =4730 K, the spot temperature T s =3500 K, and the relative spot area from 30 to 40%. The best agreement with the observations has been achieved in our three-spot model including a cool polar spot with a temperature of ∼3500 K as well as large and small warm spots with a temperature of ∼4500 K. The stable polar spot is responsible for the long-period brightness variations. Its presence is confirmed by an analysis of the TiO 7054 Å molecular band. The small-amplitude 34-day variability is attributable to the warm spots located on the side of the secondary component, which determine the relatively stable active longitude.

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“…Observations showed the existence of spots concentrating at quadrature positions in ζ And (e.g. Kővári et al 2007a, Korhonen et al 2010. Likewise, the deformation could also account for the disparate DR laws obtained for ζ And and for σ Gem.…”

Section: Discussionmentioning

confidence: 91%

Differential Rotation in Two RS CVn Systems: σ Gem and ζ And

et al. 2011

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Abstract. The differentially rotating convective envelope is an indispensable element of the magnetic dynamo working in RS CVn-systems. Tidal coupling is responsible for maintaining fast rotation, and also the observed high level of magnetic activity. In this work, we compare the physical properties of two well known RS CVn-type binaries, that is the long-period system σ Gem and the ellipsoidal variable ζ And. For the comparison, we use the results obtained from processing time-series Doppler images. We also aim at understanding how differential rotation could be affected by tidal forces in such close binaries.

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Ellipsoidal primary of the RS CVn binaryζ Andromedae

Cited by 12 publications

References 24 publications

V405 Andromeda Revisited

V405 Andromeda Revisited

Spotted Surface Structure of the Active Giant PZ Mon

Differential Rotation in Two RS CVn Systems: σ Gem and ζ And

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