Fifty Times sharper than Hubble

Oct 05, 2007
Fifty Times sharper than Hubble
The Inner Jet of the Radio Galaxy M87 located in the Virgo cluster. The angular resolution of this false-color radio image observed by the VLBA at 2 cm wavelength is approximately one milli-arcsecond, fifty times better than that of the Hubble Space Telescope at optical wavelengths. The image shows a limb brightened jet and a faint counter-jet. The central gap is consistent with the presence of a fast inner jet which is beamed away from the observer surrounded by a slower moving outer plasma seen by the VLBA. Image: Y.Y. Kovalev, MPIfR Bonn

M87, the central galaxy of the Virgo cluster in a distance of only 50 million light years, was observed by Yuri Kovalev from the Max Planck Institute for Radio Astronony (MPIfR) in Bonn and his colleagues with the VLBA (Very Long Baseline Array) at 2 cm wavelength. The resulting image provides details down to a resolution of one milli-arcsecond, corresponding to a linear resolution of only three light months.

The new image of the inner radio jet of M87 shows a highly collimated jet which appears limb-brightened, and also a faint counter-jet. It is unprecedented in its combination of sensitivity and spatial resolution.

The observations were performed with the Very Long Baseline Array (VLBA) of the National Radio Astronomy Observatory (NRAO), consisting of ten radio antennas in North America including Hawaii and Virgin Island and an additional telescope from the Very Large Array (VLA) near Socorro, New Mexico. The Effelsberg 100m radio telescope is regularly used for transatlantic baselines extending the VLBA observations. "With the 100m radio telescope, we plan to increase the spatial resolution and provide an even more detailed image of the M87 jet", says Yuri Kovalev.

M87 is a very massive galaxy (2 to 3 x 1012 solar masses) and the central object of the Virgo cluster of galaxies at a distance of only 16 Megaparsec (approximately 50 million light years). "The first jet-like structure, emanating from the nucleus of a galaxy, was found in M87", says NRAO co-author Ken Kellermann, former MPIfR director and currently external member of the institute. In 1918, US astronomer Heber Curtis was the first to discover a nuclear jet extending at least 5000 light years from the center of M87. This galaxy was also among the first to be recognized as a powerful source of radio emission. John Bolton and his colleagues from Australia used the sea cliff interferometer in Sydney to identify the strong radio source Virgo A with the galaxy M87 (published 1949 in "Nature").

The energy of such powerful radio galaxies results from their "central engines". Active Galactic Nuclei or AGN are thought to consist of a very massive black hole in the center of the galaxy, in case of M87 a black hole of approximately 3 billion (3 x 109) solar masses. A disk of rapidly rotating gas around the nucleus (accretion disk) "feeds" the black hole and matter is ejected from the nucleus in jets orthogonal to the disk.

From a theoretical point of view, Russian astrophysicist Iosif Shklovsky argued already in 1964, that such jets in powerful radio galaxies, feeding the double radio lobes in objects like Cygnus A or Virgo A, were likely to be intrinsically two-sided. The one-sided appearance of most of the observed jets, suggested Shklovsky, might be due to relativistic Doppler beaming, increasing the luminosity of the jet in the direction of the observer. "With our new observations, we could indeed confirm the faint counter-jet structure in M87 and thus give a proof for Shklovsky's theoretical assumptions", says Yuri Kovalev who got his PhD in Russia, in a research group originally founded by Shklovsky.

At present Kovalev works a a Research Fellow of the Alexander von Humboldt Foundation in the Very Long Baseline Interferometry (VLBI) group of MPIfR in Bonn. "Its a nice result to see both, jet structure and jet dynamics of this nearby radio galaxy in such fine detail", says Anton Zensus, director at MPIfR and head of the VLBI research group.

Citation: The Inner Jet of Radio Galaxy M87, Y. Y. Kovalev, M. L. Lister, D. C. Homan, K. I. Kellermann, 2007, Astrophysical Journal Letters 668, L27 (October 10 issue, September 25 Online).

Source: Max-Planck-Institut

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User comments : 4

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GuruShabu
1.5 / 5 (2) Oct 05, 2007
The size of the galaxy M87 in the text above ((2 to 3 x 1012 solar masses))is wrong.
Also, it cannot be 2 or 3 E12, which is too big!
yyk
5 / 5 (1) Oct 06, 2007
2 to 3 E12 solar masses sounds right.
See, e.g., wikipedia:
http://en.wikiped...ssier_87
RobGrambau
5 / 5 (1) Oct 06, 2007
The VLBA must be using a new master clock to produce that aperture and resolution. How accurate is that clock, anyway?
fleem
5 / 5 (1) Oct 06, 2007
One milli-arcsecond resolution should let us see the disks of nearby stars quite well: R Doradus=50 milli-arcseconds, Betelgeuse=44milli-arcseconds. Imagine seeing a 50x50 pixel image of Betelgeuse! Do they emit enough microwaves? Even Proxima Centauri might barely show up. Too bad gas giants are so quiet, microwave-wise.