http://arxiv.org/abs/1512.01679
Eight pulsars have low braking indices value which challenge the traditional model of dipole magnetic braking of pulsars. 222 pulsars and 15 magnetars have abnormal distribution of $\ddot{\nu}$ that also make contradiction with classical theory. How neutron star magnetospheric activities affect both these two phenomenons by using the updated wind braking model are investigated. It bases on the observational evidence that pulsar timing is related to radiation and both these two aspects can reflect magnetospheric activities. The new formulate of $n$ and $\ddot{\nu}$ are proposed to understand a more general situation. As neutron star magnetospheric fluctuation is unavoidable so it must be considered. Young pulsars have meaningful braking indices, while old pulsars’ and magnetars’ fluctuation item of $\ddot{\nu}$ dominates them and it reflects the timing noise. It can explain both the two questions above uniformly. The steady braking indices of eight young pulsars can be seen as small fluctuation amplitude. On the other hand, the abnormal distribution of $\ddot{\nu}$ can be seen as the case of timing noise for pulsar spin down. An equation like Langevin equation for Brownian motion was derived for pulsar spin-down. The fluctuation in magnetosphere can be either periodic or random, which result in timing noise and they have similar results. The magnetospheric activities of magnetars are always stronger than those of normal pulsars.
Z. Ou, H. Tong, F. Kou, et. al.
Tue, 8 Dec 15
70/71
Comments: 13 pages, 9 figures, submitted
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