Rotation in the Pleiades with K2. I. Data and first results
MetadataShow full item record
Young (125 Myr), populous (>1000 members), and relatively nearby, the Pleiades has provided an anchor for stellar angular momentum models for both younger and older stars. We used K2 to explore the distribution of rotation periods in the Pleiades. With more than 500 new periods for Pleiades members, we are vastly expanding the number of Pleiads with periods, particularly at the low mass end. About 92% of the members in our sample have at least one measured spot-modulated rotation period. For the 8% of the members without periods, non-astrophysical effects often dominate (saturation, etc.), such that periodic signals might have been detectable, all other things being equal. We now have an unusually complete view of the rotation distribution in the Pleiades. The relationship between P and (V−Ks)0 follows the overall trends found in other Pleiades studies. There is a slowly rotating sequence for 1.1≲ (V−Ks)0 ≲ 3.7, and a primarily rapidly rotating population for (V−Ks)0 ≳ 5.0. There is a region in which there seems to be a disorganized relationship between P and (V−Ks)0 for 3.7 ≲ (V−Ks)0 ≲ 5.0. Paper II continues the discussion, focusing on multi-period structures, and Paper III speculates about the origin and evolution of the period distribution in the Pleiades.
Rebull , L M , Stauffer , J R , Bouvier , J , Cody , A M , Hillenbrand , L A , Soderblom , D R , Valenti , J , Barrado , D , Bouy , H , Ciardi , D , Pinsonneault , M , Stassun , K , Micela , G , Aigrain , S , Vrba , F , Somers , G , Christiansen , J , Gillen , E & Cameron , A C 2016 , ' Rotation in the Pleiades with K 2. I. Data and first results ' Astronomical Journal , vol 152 , no. 5 , 113 . DOI: 10.3847/0004-6256/152/5/113
© 2016, American Astronomical Society. This work is made available online in accordance with the publisher’s policies. This is the author created, accepted version manuscript following peer review and may differ slightly from the final published version. The final published version of this work is available at https://dx.doi.org/10.3847/0004-6256/152/5/113
Items in the St Andrews Research Repository are protected by copyright, with all rights reserved, unless otherwise indicated.