TL;DR
This paper introduces a comprehensive new electron density model for the Galaxy, Magellanic Clouds, and IGM, improving distance estimates for pulsars and FRBs based on dispersion measure data.
Contribution
The paper presents a detailed, updated electron density model incorporating various Galactic features, fitted to pulsar data, and demonstrates improved accuracy over previous models.
Findings
Model predicts pulsar distances within 20% for most cases.
YMW16 outperforms TC93 and NE2001 models in accuracy.
Estimated pulse broadening timescales for scattering effects.
Abstract
We present a new model for the distribution of free electrons in the Galaxy, the Magellanic Clouds and the intergalactic medium (IGM) that can be used to estimate distances to real or simulated pulsars and fast radio bursts (FRBs) based on their dispersion measure (DM). The Galactic model has an extended thick disk representing the so-called warm interstellar medium, a thin disk representing the Galactic molecular ring, spiral arms based on a recent fit to Galactic HII regions, a Galactic Center disk and seven local features including the Gum Nebula, Galactic Loop I and the Local Bubble. An offset of the Sun from the Galactic plane and a warp of the outer Galactic disk are included in the model. Parameters of the Galactic model are determined by fitting to 189 pulsars with independently determined distances and DMs. Simple models are used for the Magellanic Clouds and the IGM. Galactic…
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