HST-1 as a Window to the Energetics of the Jet Spine of M87

Abstract

A new interpretation of the optical knot in the jet of M87, HST-1, is presented. High sensitivity 22 GHz Very Large Array images locate HST-1 to within 6 mas of the jet axis immediately upstream. 1.7 GHz Very Long Baseline Array images of a bright flare in 2005 indicates that the preponderance of emission in the early stages originates in an elongated region that is tilted 12.5 from the jet axis. The superluminal motion, shape, location and the large jet-aligned optical/UV polarization suggest an identification with the putative relativistic spine of the jet. As such, energy flux estimates for HST-1, 870 mas from the nucleus, published in 2006 indicate that the central engine injected Qspine≈ 2.5 × 1041ergs/s into the base of the spine 200 years earler. Furthermore, previous studies reveal a tubular protonic jet on sub-mas scales that envelopes a low luminosity core, presumably the faint spine base. It was estimated that the central engine injected Qtubular\,jet≈ 6.1× 1041ergs/s 1.5 years earlier. If one component of the jet is inherently more powerful, a firm constraint on total jet power in the recent past exists. If the emitted jet is inherently dominated by the spine (tubular jet) then the total bilaterally symmetric jet power emitted from the central engine was <4Qspine≈ 1.0 × 1042ergs/s (< 4Qtubular\,jet≈ 2.4× 1042ergs/s) 200 ( 1.5) years earlier. Assuming a nearly constant central engine injected jet power for 200 years indicates a total jet power of 2× 1042 ergs/s in epochs of modern observation or 3.5\% jet production efficiency for an accretion rate of 0.001M/yr.