The Proper Motion of the Galactic Center Pulsar Relative to Sagittarius A*

TL;DR

This study measures the proper motion of a pulsar near the Galactic Center to understand its origin, orbital characteristics, and interstellar scattering properties, providing insights into pulsar populations and black hole environment.

Contribution

First measurement of the pulsar's proper motion relative to Sgr A* using VLBA, supporting its origin from the stellar disk and constraining its orbital parameters.

Findings

Pulsar has a transverse velocity of 236 km/s.

Velocity and position are consistent with a bound orbit from the stellar disk.

PSR J1745-2900 shares scattering properties with Sgr A*.

Abstract

We measure the proper motion of the pulsar PSR J1745-2900 relative to the Galactic Center massive black hole, Sgr A*, using the Very Long Baseline Array (VLBA). The pulsar has a transverse velocity of 236 +/- 11 km s^-1 at position angle 22 +/- 2 deg East of North at a projected separation of 0.097 pc from Sgr A*. Given the unknown radial velocity, this transverse velocity measurement does not conclusively prove that the pulsar is bound to Sgr A*; however, the probability of chance alignment is very small. We do show that the velocity and position is consistent with a bound orbit originating in the clockwise disk of massive stars orbiting Sgr A* and a natal velocity kick of <~ 500 km s^-1. An origin among the isotropic stellar cluster is possible but less probable. If the pulsar remains radio-bright, multi-year astrometry of PSR J1745-2900 can detect its acceleration and determine the full three-dimensional orbit. We also demonstrate that PSR J1745-2900 exhibits the same angular broadening as Sgr A* over a wavelength range of 3.6 cm to 0.7 cm, further confirming that the two sources share the same interstellar scattering properties. Finally, we place the first limits on the presence of a wavelength-dependent shift in the position of Sgr A*, i.e., the core shift, one of the expected properties of optically-thick jet emission. Our results for PSR J1745-2900 support the hypothesis that Galactic Center pulsars will originate from the stellar disk and deepens the mystery regarding the small number of detected Galactic Center pulsars.