Radio Properties of Rotating Radio Transients: Single Pulse Spectral and Wait Time Analyses

Abstract

Rotating radio transients (RRATs) are a sub-class of pulsars characterized by sporadic emission and thus can generally only be studied by analysis of their single-pulses. Here we present a single-pulse analysis using 11 years of timing data at 1400~MHz of three RRATs, PSRs~J1819-1458, J1317-5759, and J1913+1330. We perform a spectral analysis on the single-pulses of these RRATs for the first time, finding their mean spectral indices to be -1.1 0.1, -0.6 0.1, and -1.2 0.2 respectively, within the known range of pulsar spectral indices. We find no evidence for narrowband features as seen for FRB~121102. However, we find the spread of single-pulse spectral indices for these RRATs (ranging from -7 to +4) to be larger than has been seen in other pulsars, with the exception of the Crab pulsar. We also analyze the time between detected pulses, or wait-time, and find that the pulses are not random and cluster around wait-times of a few pulse periods as well as 25 pulse periods for PSRs~J1819-1458 and J1317-5759. Additionally we find that there is no correlation between the wait-time and pulse flux density. Finally we find that the distribution of the pulse energy for PSRs~J1317-5759 and J1913+1330 are log-normal, while that of PSR~J1819-1458 is log-normal with possible evidence of an additional power-law component.