NASA's Hubble Space Telescope clearly shows the central core and accompanying jet of the giant elliptical galaxy M87. This near-infrared image was taken with HST's Wide Field and Planetary Camera (WF/PC), in high resolution mode, on June 1, 1991.
Tod R. Lauer, Sandra M. Faber/NASANASA's Hubble Space Telescope clearly shows the central core and accompanying jet of the giant elliptical galaxy M87. This near-infrared image was taken with HST's Wide Field and Planetary Camera (WF/PC), in high resolution mode, on June 1, 1991. The image is being presented on Thursday, January 16th at the 179th meeting of the American Astronomical Society in Atlanta, Georgia.
The steady increase in brightness of M87 towards its center is readily apparent in the image, showing that the stars in MS7 are strongly concentrated towards its nucleus, as if drawn into the center and held there by the gravitational field of a massive black hole. Theoretical models suggest that the structure of Mg7 is consistent with a central 2.6 billion solar mass black hole. High resolution spectroscopic observations are now needed to confirm this possibility.
The spot of light directly at the center of M87 is not due to starlight, but appears to be a visible counterpart of the strong nuclear radio source. The nuclear emission appears to be produced by hot plasma interacting with magnetic fields and is perhaps generated by a super hot disk of infalling gas expected to surround the black hole. This accretion disk is presumably also the source of the plasma jet which extends for more than 5,000 light years from the nucleus.
Also visible in the image are a number of faint starlike sources scattered about the center. These are globular clusters orbiting within M87, each composed of 100 thousand to 1 million stars.
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