COBIPULSE: A Systematic Search for Compact Binary Millisecond Pulsars

Abstract

We report here the results obtained from a systematic optical photometric survey aimed at finding new compact binary millisecond pulsars (also known as "spiders"): the COmpact BInary PULsar SEarch (COBIPULSE). We acquired multi-band optical images over one year around 33 unidentified Fermi-LAT sources, selected as pulsar candidates based on their curved GeV spectra and steady γ-ray emission. We present the discovery of four optical variables coinciding with the Fermi sources 3FGL J0737.2-3233, 3FGL J2117.6+3725 (two systems in this field) and 3FGL J2221.6+6507, which we propose as new candidate spider systems. Indeed, they all show optical flux modulation consistent with orbital periods of 0.3548(5) \ d, 0.25328(6) \ d, 0.441961(2) \ d, and 0.165(4) \ d, respectively, with amplitudes 0.3 \ mag and colors compatible with companion star temperatures of 5000--6000 \ K. These properties are consistent with the "redback" sub-class of spider pulsars. If confirmed as a millisecond pulsar, 3FGL J0737.2-3233 will be the closest known spider to Earth (D=659-20+16 \ pc, from Gaia-DR3 parallax). We searched and did not find any X-ray sources matching our four candidates, placing 3σ upper limits of 1031--1032 \ erg \ s-1 (0.3--10 \ keV) on their soft X-ray luminosities. We also present and discuss other multi-wavelength information on our spider candidates, from infrared to X-rays.

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