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arxiv: 2309.15027 · v1 · pith:ZVEGJLND · submitted 2023-09-26 · astro-ph.HE

On the Distances to the X-ray Binaries Cygnus X-3 and GRS 1915+105

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classification astro-ph.HE
keywords distancesx-raydistanceparallaxpeculiarsourcesystemsassumption
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In this paper we significantly improve estimates of distance to the X-ray binary systems Cyg X-3 and GRS 1915+105. We report a highly accurate trigonometric parallax measurement for Cyg X-3 using the VLBA at 43 GHz, placing the source at a distance of 9.67+0.53-0.48 kpc. We also use Galactic proper motions and line-of-sight radial velocity measurements to determine 3-dimensional (3D) kinematic distances to both systems, under the assumption that they have low peculiar velocities. This yields distances of 8.95+-0.96 kpc for Cyg X-3 and 9.4+-0.6 (statistical)+-0.8 (systematic) for GRS 1915+105. The good agreement between parallax and 3D kinematic distances validates the assumption of low peculiar velocities, and hence small natal kicks, for both of the systems. For a source with a low peculiar velocity, given its parallax distance, Cyg X-3 should have a Vlsr near -64+-5 km/s. Our measurements imply a slightly higher inclination angle, and hence lower black hole mass for GRS 1915+105 than found from previous work by Reid et al (2014) and strengthen arguments from X-ray polarization that Cyg X-3 would be an ultraluminous X-ray source if viewed face-on.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Cygnus X-3: A variable petaelectronvolt gamma-ray source

    astro-ph.HE 2025-12 conditional novelty 8.0

    Cygnus X-3 produces variable gamma rays up to 3.7 PeV, consistent with photomeson production in its relativistic jet requiring protons accelerated to tens of PeV.

  2. An intrinsic decline of accretion activity in GRS 1915+105

    astro-ph.HE 2026-07 conditional novelty 6.0

    Deep X-ray, radio, and infrared non-detections of GRS 1915+105 imply an intrinsic decline in accretion activity rather than enhanced obscuration, likely driven by 2023-2024 outflows clearing the inner disc.