Abstract
ABSTRACT We report observed and derived timing parameters for three millisecond pulsars (MSPs) from observations collected with the Parkes 64-m telescope, Murriyang. The pulsars were found during reprocessing of archival survey data by Mickaliger et al. One of the new pulsars (PSR J1546–5925) has a spin period P = 7.8 ms and is isolated. The other two (PSR J0921–5202 with P = 9.7 ms and PSR J1146–6610 with P = 3.7 ms) are in binary systems around low-mass (${\gt}0.2\, {\rm M}_{\odot }$) companions. Their respective orbital periods are 38.2 and 62.8 d. While PSR J0921–5202 has a low orbital eccentricity e = 1.3 × 10−5, in keeping with many other Galactic MSPs, PSR J1146–6610 has a significantly larger eccentricity, e = 7.4 × 10−3. This makes it a likely member of a group of eccentric MSP–helium white dwarf binary systems in the Galactic disc whose formation is poorly understood. Two of the pulsars are co-located with previously unidentified point sources discovered with the Fermi satellite’s Large Area Telescope, but no γ-ray pulsations have been detected, likely due to their low spin-down powers. We also show that, particularly in terms of orbital diversity, the current sample of MSPs is far from complete and is subject to a number of selection biases.
Highlights
30% were discovered in deep radio searches (Ray et al 2012) of Fermi Large Area Telescope (LAT) γray sources without known counterparts
2.2 High-energy follow up with the Fermi LAT Given the precise positions for these three millisecond pulsars (MSPs), we have looked for their counterparts at other wavelengths
Assuming pulsar masses Mp = 1.4 M, the two new binary MSPs presented in this work, PSR J0921–5202 and PSR J1146–6610, have minimum companion masses Mc > 0.24 and > 0.20 M
Summary
Understanding the demographics, origin and evolution of pulsars depends strongly on having a well-determined sample based on sensitive surveys. The current sample of MSPs in the Galactic field, which we here define somewhat arbitrarily as pulsars having periods P < 30 ms, exceeds 400. This has led to an era in which some of the new discoveries are known to a relatively small subset of the community prior to publication and their subsequent appearance in the pulsar catalog (Manchester et al 2005). For each MSP, we list its name, Galactic coordinates, pulse period, dispersion measure and information on the survey(s) which detected it, as well as year of discovery. We describe timing observations for three MSPs found during the reprocessing of the Parkes Multibeam Pulsar Survey by Mickaliger et al (2012), named PSRs J0922−52, J1147−66, and.
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