A new method to analyse pulsar nulling phenomenon
arXiv:1310.6610 · doi:10.1007/s11433-014-5534-x
Abstract
Pulsar nulling is a phenomenon of sudden cessation of pulse emission for a number of periods. The nulling fraction was often used to characterize the phenomenon. We propose a new method to analyse pulsar nulling phenomenon, by involving two key parameters, the nulling degree, $Ï$, which is defined as the angle in a rectangular coordinates for the numbers of nulling periods and bursting periods, and the nulling scale, $ N $, which is defined as the effective length of the consecutive nulling periods and bursting periods. The nulling degree $Ï$ can be calculated by $\tan Ï= N_{\rm nulling} / N_{\rm bursting} $ and the mean is related to the nulling fraction, while the nulling scale, $ N $, is also a newly defined fundamental parameter which indicates how often the nulling occurs. We determined the distributions of $Ï$ and $ N $ for 10 pulsars by using the data in literature. We found that the nulling degree $Ï$ indicates the relative length of nulling to that of bursting, and the nulling scale $ N $ is found to be related to the derivative of rotation frequency and hence the loss rate of rotational energy of pulsars. Their deviations reflect the randomness of the nulling process.
7 pages, 4 figures. Submitted to China Science (Phys Mech Astron)