Whole Earth Telescope discovery of a strongly distorted quadrupole pulsation in the largest amplitude rapidly oscillating Ap star

Holdsworth, Daniel Luke orcid iconORCID: 0000-0003-2002-896X, Kurtz, Donald Wayne orcid iconORCID: 0000-0002-1015-3268, Saio, H, Provencal, JL, Zetarte, B, Sefako, R, Petit, V, Smalley, B, Thomsen, H et al (2017) Whole Earth Telescope discovery of a strongly distorted quadrupole pulsation in the largest amplitude rapidly oscillating Ap star. Monthly Notices of the Royal Astronomical Society, 473 . pp. 91-104. ISSN 0035-8711

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Official URL: https://doi.org/10.1093/mnras/stx2401

Abstract

We present a new analysis of the rapidly oscillating Ap (roAp) star, 2MASS J19400781 − 4420093 (J1940;
V = 13.1). The star was discovered using SuperWASP broadband photometry to have a frequency of
176.39 d−1 (2041.55 µHz; P = 8.2 min; Holdsworth et al. 2014a) and is shown here to have a peak-to-peak
amplitude of 34 mmag. J1940 has been observed during three seasons at the South African Astronomical Ob-
servatory, and has been the target of a Whole Earth Telescope campaign. The observations reveal that J1940 pulsates in a distorted quadrupole mode with unusual pulsational phase variations. A higher signal-to-noise ratio spectrum has been obtained since J1940’s first announcement, which allows us to classify the star as A7 Vp Eu(Cr). The observing campaigns presented here reveal no pulsations other than the initially detected frequency. We model the pulsation in J1940 and conclude that the pulsation is distorted by a magnetic field
of strength 1.5 kG. A difference in the times of rotational maximum light and pulsation maximum suggests a significant offset between the spots and pulsation axis, as can be seen in roAp stars.


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