In astronomy, the Kraft break refers to the abrupt decrease in stars' average rotation rates at surface temperatures below about 6,200 kelvin. This temperature corresponds to mid-F type stars.[1] The so-called break bears the name of astronomer Robert Kraft,[2] though its existence was recognized prior to his publications on the topic.[3] The break is understood to separate stars with deep convective envelopes and efficient magnetic dynamos from those without. The dynamos are thought to maintain magnetic fields that transfer angular momentum to the stellar wind, thus slowing down the star's surface through magnetic braking. In hot stars the process is less efficient (because the convective envelopes are shallow) so the stars continue to rotate quickly.[4]
References
edit- ^ Beyer, Alexa C.; White, Russel J. (2024). "The Kraft Break Sharply Divides Low-mass and Intermediate-mass Stars". The Astrophysical Journal. 973: 28. doi:10.3847/1538-4357/ad6b0d.
- ^ Kraft, R. P. (1967), "Studies of Stellar Rotation. V. The Dependence of Rotation on Age among Solar-Type Stars", Astrophysical Journal, 150: 551, Bibcode:1967ApJ...150..551K, doi:10.1086/149359
- ^ Schatzman, E. (1962), "A theory of the role of magnetic activity during star formation", Annales d'Astrophysique, 25: 18, Bibcode:1962AnAp...25...18S
- ^ Maeder, A. (2009), Physics, Formation and Evolution of Rotating Stars (PDF), Astronomy and Astrophysics Library, Bibcode:2009pfer.book.....M, doi:10.1007/978-3-540-76949-1, ISBN 978-3-540-76948-4