Discovery of a steep-spectrum low-luminosity pulsar with the Murchison Widefield Array


Abstract in English

We report the discovery of the first new pulsar with the Murchison Widefield Array (MWA), PSR J0036$-$1033, a long-period (0.9 s) nonrecycled pulsar with a dispersion measure (DM) of 23.1 ${rm pc,cm^{-3}}$. It was found after processing only a small fraction ($sim$1%) of data from an ongoing all-sky pulsar survey. Follow-up observations have been made with the MWA, the upgraded Giant Metrewave Radio Telescope (uGMRT), and the Parkes 64 m telescopes, spanning a frequency range from $sim$150 MHz to 4 GHz. The pulsar is faint, with an estimated flux density ($S$) of $sim$1 mJy at 400 MHz and a spectrum $S( u),propto, u^{-2.0 pm 0.2}$, where $ u$ is frequency. The DM-derived distance implies that it is also a low-luminosity source ($sim$ 0.1 ${rm mJy,kpc^2}$ at 1400 MHz). The analysis of archival MWA observations reveals that the pulsars mean flux density varies by up to a factor of $sim$5-6 on timescales of several weeks to months. By combining MWA and uGMRT data, the pulsar position was determined to arcsecond precision. We also report on polarization properties detected in the MWA and Parkes bands. The pulsars nondetection in previous pulsar and continuum imaging surveys, the observed high variability, and its detection in a small fraction of the survey data searched to date, all hint at a larger population of pulsars that await discovery in the southern hemisphere, with the MWA and the future low-frequency Square Kilometre Array.

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