Jet Launching Structure Resolved Near the Supermassive Black Hole in M87

Authors :: Doeleman, Sheperd S.
Fish, Vincent L.
Schenck, David E.
Beaudoin, Christopher
Blundell, Ray
Bower, Geoffrey C.
Broderick, Avery E.
Chamberlin, Richard
Freund, Robert
Friberg, Per
Gurwell, Mark A.
Ho, Paul T. P.
Honma, Mareki
Inoue, Makoto
Krichbaum, Thomas P.
Lamb, James
Loeb, Abraham
Lonsdale, Colin
Marrone, Daniel P.
Moran, James M.
Oyama, Tomoaki
Plambeck, Richard
Primiani, Rurik A.
Rogers, Alan E. E.
Smythe, Daniel L.
SooHoo, Jason
Strittmatter, Peter
Tilanus, Remo P. J.
Titus, Michael
Weintroub, Jonathan
Wright, Melvyn
Young, Ken H.
Ziurys, Lucy M.
Source :: Science 338, 355 (2012)
Publication Year :: 2012
Abstract: Approximately 10% of active galactic nuclei exhibit relativistic jets, which are powered by accretion of matter onto super massive black holes. While the measured width profiles of such jets on large scales agree with theories of magnetic collimation, predicted structure on accretion disk scales at the jet launch point has not been detected. We report radio interferometry observations at 1.3mm wavelength of the elliptical galaxy M87 that spatially resolve the base of the jet in this source. The derived size of 5.5 +/- 0.4 Schwarzschild radii is significantly smaller than the innermost edge of a retrograde accretion disk, suggesting that the M87 jet is powered by an accretion disk in a prograde orbit around a spinning black hole.<br />Comment: 12 pages, 3 figures, accepted version