Email this article Spectroscopic observations of the exoplanet WASP-32b transit
- Authors: Grauzhanina A.O.1, Valyavin G.G.1, Gadelshin D.R.1, Baklanova D.N.2, Plachinda S.I.2, Antonyuk K.A.1,2, Pit N.V.2, Galazutdinov G.A.3,4,1, Valeev A.F.1,5, Burlakova T.E.1, Kholtygin A.F.6
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Affiliations:
- Special Astrophysical Observatory
- Crimean Astrophysical Observatory
- Instituto de Astronomia
- Main (Pulkovo) Astronomical Observatory
- Kazan (Volga Region) Federal University
- St. Petersburg State University
- Issue: Vol 72, No 1 (2017)
- Pages: 67-72
- Section: Article
- URL: https://journals.rcsi.science/1990-3413/article/view/212374
- DOI: https://doi.org/10.1134/S1990341317030087
- ID: 212374
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Abstract
We present first results of spectroscopic observations of transiting exoplanets in the Special Astrophysical Observatory of the Russian Academy of Sciences with the Main Stellar Spectrograph of the 6-m BTA telescope. For the exoplanetWASP-32b, we detected a significant variation of intensity and equivalent width in the Hα spectral line of the parent star at the time of a transit. The equivalent width of the line during transit is by 8–10% larger than outside the planet passage. Residual intensity in the core of the line reveals the following tendency: the line is by 10–15% deeper inside transit than outside it. Observations with the long-slit spectrograph of the Crimean Astrophysical Observatory at the 2.6-m ZTSh telescope also showed a transit event in the Hα line, although, with a smaller amplitude and shape inverted in relation to the data from the 6-m telescope. While in the observations with the BTA the Hα line becomes deeper during the transit, in the ZTSh observations, the residual intensity of the Hα line decreases during the transit. Reducing and analysis of the archive data of WASP-32b observations with the HARPS spectrograph also confirm the Hα line modulation at the time of the transit. The observed data give evidence of the envelope in WASP-32b filling the Roche lobe and a comet-like tail of changing geometry and orientation relative to the observer. These changes determine different depths and shapes of the Hα spectral line at the time of transits.
About the authors
A. O. Grauzhanina
Special Astrophysical Observatory
Author for correspondence.
Email: racwet@yandex.ru
Russian Federation, Nizhnii Arkhyz, 369167
G. G. Valyavin
Special Astrophysical Observatory
Email: gdamir-85@mail.ru
Russian Federation, Nizhnii Arkhyz, 369167
D. R. Gadelshin
Special Astrophysical Observatory
Author for correspondence.
Email: gdamir-85@mail.ru
Russian Federation, Nizhnii Arkhyz, 369167
D. N. Baklanova
Crimean Astrophysical Observatory
Email: gdamir-85@mail.ru
Russian Federation, Nauchny, Crimea, 298409
S. I. Plachinda
Crimean Astrophysical Observatory
Email: gdamir-85@mail.ru
Russian Federation, Nauchny, Crimea, 298409
K. A. Antonyuk
Special Astrophysical Observatory; Crimean Astrophysical Observatory
Email: gdamir-85@mail.ru
Russian Federation, Nizhnii Arkhyz, 369167; Nauchny, Crimea, 298409
N. V. Pit
Crimean Astrophysical Observatory
Email: gdamir-85@mail.ru
Russian Federation, Nauchny, Crimea, 298409
G. A. Galazutdinov
Instituto de Astronomia; Main (Pulkovo) Astronomical Observatory; Special Astrophysical Observatory
Email: gdamir-85@mail.ru
Chile, Antofagasta; Saint-Petersburg, 196140; Nizhnii Arkhyz, 369167
A. F. Valeev
Special Astrophysical Observatory; Kazan (Volga Region) Federal University
Email: gdamir-85@mail.ru
Russian Federation, Nizhnii Arkhyz, 369167; Kazan, 420008
T. E. Burlakova
Special Astrophysical Observatory
Email: gdamir-85@mail.ru
Russian Federation, Nizhnii Arkhyz, 369167
A. F. Kholtygin
St. Petersburg State University
Email: gdamir-85@mail.ru
Russian Federation, St. Petersburg, 198504
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