Very Long Baseline Interferometry Measured Proper Motion and Parallax of the γ-ray Millisecond Pulsar PSR J0218+4232

Abstract

PSR J0218+4232 is a millisecond pulsar (MSP) with a flux density 0.9 mJy at 1.4 GHz. It is very bright in the high-energy X-ray and γ-ray domains. We conducted an astrometric program using the European VLBI Network (EVN) at 1.6 GHz to measure its proper motion and parallax. A model-independent distance would also help constrain its γ-ray luminosity. We achieved a detection of signal-to-noise ratio S/N > 37 for the weak pulsar in all five epochs. Using an extragalactic radio source lying 20 arcmin away from the pulsar, we estimate the pulsar's proper motion to be μαδ=5.350.05 mas yr-1 and μδ=-3.74 0.12 mas yr-1, and a parallax of π=0.160.09 mas. The very long baseline interferometry (VLBI) proper motion has significantly improved upon the estimates from long-term pulsar timing observations. The VLBI parallax provides the first model-independent distance constraints: d=6.3+8.0-2.3 kpc, with a corresponding 3σ lower-limit of d=2.3 kpc. This is the first pulsar trigonometric parallax measurement based solely on EVN observations. Using the derived distance, we believe that PSR J0218+4232 is the most energetic γ-ray MSP known to date. The luminosity based on even our 3σ lower-limit distance is high enough to pose challenges to the conventional outer gap and slot gap models.