EPJ Web of Conferences (Jan 2015)

Asteroseismic measurement of surface-to-core rotation in a main-sequence star*

  • Kurtz Donald W.,
  • Saio Hideyuki,
  • Takata Masao,
  • Shibahashi Hiromoto,
  • Murphy Simon J.,
  • Sekii Takashi

DOI
https://doi.org/10.1051/epjconf/201510101007
Journal volume & issue
Vol. 101
p. 01007

Abstract

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We have discovered rotationally split core g-mode triplets and surface p-mode triplets and quintuplets in a terminal age main-sequence A star, KIC 11145123, that shows both δ Sct p-mode pulsations and γ Dor g-mode pulsations. This gives the first robust determination of the rotation of the deep core and surface of a main-sequence star, essentially model-independently. We find its rotation to be nearly uniform with a period near 100 d, but we show with high confidence that the surface rotates slightly faster than the core. A strong angular momentum transfer mechanism must be operating to produce the nearly rigid rotation, and a mechanism other than viscosity must be operating to produce a more rapidly rotating surface than core. Our asteroseismic result, along with previous asteroseismic constraints on internal rotation in some B stars, and measurements of internal rotation in some subgiant, giant and white dwarf stars, has made angular momentum transport in stars throughout their lifetimes an observational science.