English

Visualizing the pulsar population using graph theory

High Energy Astrophysical Phenomena 2022-08-17 v1

Abstract

The PP˙P\dot P diagram is a cornerstone of pulsar research. It is used in multiple ways for classifying the population, understanding evolutionary tracks, identifying issues in our theoretical reach, and more. However, we have been looking at the same plot for more than five decades. A fresh appraisal may be healthy. Is the PP˙P\dot P-diagram the most useful or complete way to visualize the pulsars we know? Here we pose a fresh look at the information we have on the pulsar population. First, we use principal components analysis over magnitudes depending on the intrinsic pulsar's timing properties (proxies to relevant physical pulsar features), to analyze whether the information contained by the pulsar's period and period derivative is enough to describe the variety of the pulsar population. Even when the variables of interest depend on PP and P˙\dot P, we show that PP˙P\dot P are not principal components. Thus, any distance ranking or visualization based only on PP and P˙\dot P is potentially misleading. Next, we define and compute a properly normalized distance to measure pulsar nearness, calculate the minimum spanning tree of the population, and discuss possible applications. The pulsar tree hosts information about pulsar similarities that go beyond PP and P˙\dot P, and are thus naturally difficult to read from the PP˙P\dot P-diagram. We use this work to introduce the pulsar tree website http://www.pulsartree.ice.csic.es containing visualization tools and data to allow users to gather information in terms of MST and distance ranking.

Cite

@article{arxiv.2207.06311,
  title  = {Visualizing the pulsar population using graph theory},
  author = {C. R. García and Diego F. Torres and Alessandro Patruno},
  journal= {arXiv preprint arXiv:2207.06311},
  year   = {2022}
}

Comments

In press in MNRAS. The pulsar tree website is at http://www.pulsartree.ice.csic.es

R2 v1 2026-06-25T00:53:13.003Z