Magnetospheric accretion at the late phases of the pre-main-sequence evolution: the case of RZ Psc

Author:

Dmitriev D V12ORCID,Ermolaeva T A1,Grinin V P13,Potravnov I S45ORCID

Affiliation:

1. Central (Pulkovo) Astronomical Observatory of the Russian Academy of Sciences , Pulkovskoye Chausse 65/1, 196140, St Petersburg, Russia

2. Crimean Astrophysical Observatory of the Russian Academy of Sciences , p/o Nauchny, 298409, Republic of Crimea

3. St. Petersburg State University , Universitetskii pr. 28, 198504, St Petersburg, Russia

4. Institute of Solar-Terrestrial Physics, Siberian branch of Russian Academy of Sciences , Lermontov Str 126A, 664033, Irkutsk, Russia

5. Institute of Astronomy of the Russian Academy of Sciences , Pyatnitskaya Str 48, 119017 Moscow, Russia

Abstract

ABSTRACT It has been shown that during the burst of accretion activity observed in UX Ori-type star RZ Psc in 2013, the accretion rate increased approximately by an order of magnitude. This means that the accretion process at the late stages of the pre-main sequence evolution is very unstable. Using the spectra obtained during this episode, we have studied the magnetospheric emission in the H α line. Models of magnetospheric accretion are calculated to obtain the parameters of the magnetosphere from this observation. In this work, we have taken into account the influence of the recombination delay effect during gas motion in the stellar magnetosphere. The accounting for this effect and the presence of the magnetospheric absorption in the IR Ca ii triplet lines and its absence in D Na i resonance lines allowed us to place a lower limit on the temperature in the magnetosphere at $\approx 10\, 000$ K, which significantly improved precision of our estimate of accretion rate. According to the best-fitting model, the logarithm of accretion rate is $\log \dot{M} = -10.1\pm 0.3$ ($\dot{M} \approx 7\times 10^{-11}\ \mathrm{M_\odot \, yr^{-1}}$) and the inclination angle of RZ Psc is 43° ± 3°. It is less than the inclination, typical for the UX Ori stars (about 70°), that explains the weak photometric variability of this star. Using the obtained accretion rate and magnetosphere radius, we estimate the strength of the dipole component of the magnetic field of RZ Psc ≈ 0.1 kGs.

Funder

Ministry of Science and Higher Education of the Russian Federation

NASA

Publisher

Oxford University Press (OUP)

Subject

Space and Planetary Science,Astronomy and Astrophysics

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