A Lower Mass Estimate for PSR J0348+0432 Based on CHIME/Pulsar Precision Timing

Abstract

The binary pulsar J0348+0432 was previously shown to have a mass of approximately 2\, M, based on the combination of radial-velocity and model-dependent mass parameters derived from high-resolution optical spectroscopy of its white-dwarf companion. We present follow-up timing observations that combine archival observations with data acquired by the Canadian Hydrogen Intensity Mapping Experiment (CHIME) pulsar instrument. We find that the inclusion of CHIME/Pulsar data yields an improved measurement of general-relativistic orbital decay in the system that falls within 1.2 σ of the original values published by Antoniadis et al. (2013) while being roughly 6 times more precise due to the extended baseline. When we combine this new orbital evolution rate with the mass ratio determined from optical spectroscopy, we determine a pulsar mass of 1.806(37)\, M. For the first time for this pulsar, timing alone significantly constrains the pulsar mass. We explain why the new mass for the pulsar is 10\% lower and discuss how the mis-modeling of the initial observations of the white dwarf companion likely led to an inaccurate determination of the pulsar mass.

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