Litcius/Paper detail

The influence of the environment on the spin evolution of low-mass stars – I. External photoevaporation of circumstellar discs

J. Roquette, Sean P. Matt, Andrew J. Winter, Louis Amard, S. Stasevic

2021Monthly Notices of the Royal Astronomical Society29 citationsDOIOpen Access PDF

Abstract

ABSTRACT Massive stars are strong sources of far-ultraviolet radiation that can be hostile to the evolution of protoplanetary discs, driving mass-loss by external photoevaporation and shortening disc-dissipation time-scales. Their effect may also reduce the time-scale of angular momentum exchanges between the disc and host star during the early pre-main-sequence phase. To improve our understanding of the environmental influence on the rotational history of stars, we developed a model that considers the influence of the local far-ultraviolet radiation on the spin evolution of low mass stars. Our model includes an assumption of disc locking, which fixes the rotation rate during the star-disc-interaction phase, with the duration of this phase parametrized as a function of the local far-ultraviolet radiation and stellar mass (in the range of 0.1–1.3 M⊙). In this way, we demonstrate how the feedback from massive stars can significantly influence the spin evolution of stars and explain the mass dependence observed in period-mass distributions of young regions like Upper Sco and NGC 2264. The high far-ultraviolet environments of high-mass stars can skew the period distribution of surrounding stars towards fast-rotation, explaining the excess of fast-rotating stars in the open cluster h Per. The proposed link between rotation and the pre-main-sequence environment opens new avenues for interpreting the rotational distributions of young stars. For example, we suggest that stellar rotation may be used as a tracer for the primordial ultraviolet irradiation for stars up to ∼1 Gyr, which offers a potential method to connect mature planetary systems to their birth environment.

Topics & Concepts

PhysicsPhotoevaporationStarsAstrophysicsT Tauri starAstronomyStellar rotationProtoplanetary diskRotation (mathematics)Stellar mass lossStellar evolutionMathematicsGeometryAstrophysics and Star Formation StudiesStellar, planetary, and galactic studiesMolecular Spectroscopy and Structure