Possible evolution of the pulsar braking index from larger than three to about one
arXiv:1604.01231 · doi:10.3847/1538-4357/aa60c6
Abstract
The coupled evolution of pulsar rotation and inclination angle in the wind braking model is calculated. The oblique pulsar tends to align. The pulsar alignment will affect its spin-down behavior. As a pulsar evolves from the magneto-dipole radiation dominated case to the particle wind dominated case, the braking index will first increase and then decrease. In the early time, the braking index may be larger than 3. And during the following long time, the braking index will be always smaller than 3. The minimum braking index is about one. This can explain the existence of high braking index larger than 3, and low braking index of pulsars simultaneously. The pulsar braking index is expected to evolve from larger than three to about one. A general trend is that the pulsar braking index will evolve from the Crab-like case to the Vela-like case.
7 pages, 4 figures, accepted in ApJ. Significantly rewritten compared with the original version: focusing on the braking index evolution, other materials are now dropped off