Abstract
In this brief note we point out that the four spatially resolved relativistic jets among the 14 dynamically confirmed black hole X-ray novae are all in systems with long orbital periods. Many shorter period systems show transient radio outbursts that are attributed to jets, but these jets have not been spatially resolved. Super-Eddington accretion has been suggested as a requirement for jet formation and may be consistent with our compilation of luminosities, but some super-Eddington outbursts did not form spatially resolved jets. We speculate that some as yet unknown process (or combination of processes) favors formation of substantially larger jets in long-period systems. Two short-period systems show evidence of being extended, but have not been resolved into multiple components, as the long-period systems have.
Highlights
No clear bias (PORB not known at time of outburst!)
1124-683, 2000+25 MCD a~0 (Zhang etal 97)
Summary
Considering BHXN only, Resolved, relativistic, moving jets are seen ONLY in Long-Period Systems. – Orbital Period (Clear division at 1 day, 6>, 8
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