Hande GÜRSOYTRAK MUTLAY scite author profile

Hande GÜRSOYTRAK MUTLAY

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Ankara University

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Cyclic Magnetic Activity in KIC7542091 Eclipsing Binary System

Terzioğlu

MUTLAY

Özdemir

et al. 2023

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Bu çalışmada, KIC7542091 sisteminin Kepler Uzay Teleskobu ile alınmış yüksek duyarlıklı fotometrik verileri kullanılarak çevrimsel aktivitenin yapısı ortaya konulmuştur. Sistemin toplam 18 ayrı çeyrekte (quarter) alınmış ışık eğrileri dikkate alınarak maksimum ve minimum parlaklıkları ile bu parlaklıklar arasındaki farklar incelenmiş ve yaklaşık 150 gün dönemli çevrimsel değişimin bulunduğu gösterilmiştir. Bu değişimin, sistemin tayf türüyle (G1V; Frasca vd., 2016) uyumlu bir şekilde aktivite kaynaklı olacağı önerilmektedir. W UMa türü bir değişen olan bu sistemin fiziksel ve geometrik parametrelerine ilişkin çalışmalar hem Kepler Uzay Teleskobu, hem de TESS gözlemlerine dayalı olarak sürdürülmektedir.

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Surface structure of 45 Hercules: an otherwise unremarkable Ap star with a surprisingly weak magnetic field

Kochukhov

MUTLAY

Amarsi

et al. 2023

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The origin of magnetic fields and their role in chemical spot formation on magnetic Ap stars is currently not understood. Here we contribute to solving this problem with a detailed observational characterisation of the surface structure of 45 Her, a weak-field Ap star. We find this object to be a long-period, single-lined spectroscopic binary and determine the binary orbit as well as fundamental and atmospheric parameters of the primary. We study magnetic field topology and chemical spot distribution of 45 Her with the help of the Zeeman Doppler imaging technique. Magnetic mapping reveals the stellar surface field to have a distorted dipolar topology with a surface-averaged field strength of 77 G and a dipolar component strength of 119 G – confirming it as one of the weakest well-characterised Ap-star fields known. Despite its feeble magnetic field, 45 Her shows surface chemical inhomogeneities with abundance contrasts of up to 6 dex. Of the four chemical elements studied, O concentrates at the magnetic equator whereas Ti, Cr and Fe avoid this region. Apart from this trend, the positions of Fe-peak element spots show no apparent correlation with the magnetic field geometry. No signs of surface differential rotation or temporal evolution of chemical spots on the time scale of several years were detected. Our findings demonstrate that chemical spot formation does not require strong magnetic fields to proceed and that both the stellar structure and the global field itself remain stable for sub-100 G field strengths contrary to theoretical predictions.

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