Studies of the rotational velocities of intermediate-mass main-sequence stars are crucial to test stellar evolution theory. They often rely on spectroscopic measurements of the projected rotation velocities, Veqsini. These not only suffer from the unknown projection factor sini but tend to ignore additional line-profile broadening mechanisms aside from rotation, such as pulsations and turbulent motions near the stellar surface. This limits the accuracy of Veq distributions derived from Veqsini measurements. We use asteroseismic measurements to investigate the distribution of the equatorial rotation velocity Veq, its ratio with respect to the critical rotation velocity, Veq/Vcrit, and the specific angular momentum, J/M, for several thousands of BAF-type stars, covering a mass range from 1.3M_{sun} to 8.8M{sun} and almost the entire core-hydrogen burning phase. We rely on high-precision model-independent internal rotation frequencies, as well as on masses and radii from asteroseismology to deduce Veq, Veq/Vcrit, and J/M for 2937 gravity-mode pulsators in the Milky Way. The sample stars have rotation frequencies between almost zero and 33uHz, corresponding to rotation periods above 0.35d. We find that intermediate-mass stars experience a break in their J/M occurring {in the mass interval [2.3,2.7]M{sun}.} We establish unimodal Veq and Veq/Vcrit distributions for the mass range [1.3,2.5[M{sun} while stars with M in [2.5,8.8]M{sun}_ reveal some structure in their distributions. We find {that the near-core rotation slows down as stars evolve,} pointing to very efficient angular momentum transport. The kernel density estimators of the asteroseismic internal rotation frequency, equatorial rotation velocity, and specific angular momentum of this large sample of intermediate-mass field stars can conveniently be used for population synthesis studies and to fine-tune the theory of stellar rotation across the main sequence evolution.

Cone search capability for table J/A+A/704/A332/table1 (Asteroseismic and stellar properties for F stars)

Cone search capability for table J/A+A/704/A332/table2 (Asteroseismic and stellar properties for BAF stars)