Active galaxy

From Academic Kids

An active galaxy is a galaxy where a significant fraction of the energy output is not emitted by the normal components of a galaxy: stars, dust and interstellar gas. This energy, depending on the active galaxy type, can be emitted across most of the electromagnetic spectrum, as infrared, radio waves, UV, X-ray and gamma rays.

A 5000 light-year (50 Em or 30,000,000,000,000,000 mile) long jet is ejected from active galaxy M87 (the yellow ball at top left). Electrons are ejected outward at near light-speed, emitting eerie blue light.
A 5000 light-year (50 Em or 30,000,000,000,000,000 mile) long jet is ejected from active galaxy M87 (the yellow ball at top left). Electrons are ejected outward at near light-speed, emitting eerie blue light.

Frequently, the abbreviation AGN (Active Galactic Nuclei) is used, since all active galaxies appear to be powered by a compact region in the galactic centre. Some of these compact regions emit jets of matter that can extend for very large distances, powering extended structures (such as radio galaxies and radio-loud quasars). But in all cases the active nucleus or central engine is the fundamental source of energy.

The standard theoretical model is that the energy is generated by matter falling onto a supermassive black hole of between 106 and 109 solar masses. As the material falls into the black hole, angular momentum causes the material to flatten into an accretion disk. Frictional heating causes the infalling material to turn into plasma, and this charged moving material produces a strong magnetic field via the alpha mechanism. Frequently, one observes jets emanating from the accretion disk, although the mechanism of formation of those jets is poorly understood. The accretion mechanism is highly efficient at turning matter into energy, and can convert almost 50% of the mass-energy of an object into energy as compared with only a few percent with nuclear fusion.

It is believed that when the black hole has eaten all of the gas and dust in its neighborhood that the active galactic nucleus ceases to emit large amounts of radiation and becomes a normal galaxy. This model is supported by what appears to be a quiet supermassive black hole in the center of the Milky Way, and in other nearby galaxies, and also nicely explains why quasars appear to have been much more common in the early universe, when more fuel was available.

This model also explains the different types of active galactic nuclei, which are believed to all be due to the same type of source, but can appear quite different depending on the angle the source makes to the earth, and the amount of gas and dust available to be fed into the black hole.

Types of active galaxies

Seyferts, quasars and blazars are the main types of AGNs that emit high-energy radiation (X-rays). Quasars, in particular, are thought to be the most consistently luminous objects in the known universe.

Radio galaxies are a heterogeneous group of radio-emitting objects often called Fanaroff and Riley (FR) galaxies after Bernie Fanaroff and Julia Riley. Most of them have huge symmetrical lobes from which the greater part of the radio emission comes. Some of them show a jet or jets (the most famous example being the giant galaxy M87 in the Virgo cluster) coming directly from the nucleus and going to the lobes. The jets are believed to be the visible manifestations of the beam of high-energy particles that power the lobes. The radio emission is synchrotron radiation, implying that the radio lobes and jets contain relativistic electrons and magnetic fields.

The "Fanaroff and Riley" radio galaxies are divided into two classes: Fanaroff and Riley Class I (FR I), and Fanaroff and Riley Class II FR II). The distinction was originally made based on the morphology of the radio emission (the type was determined by the distance between the brightest points in the radio emission). Now, the distinction is based on the energy transport mechanism in the radio source. FR I objects typically exhibit subsonic jets and a meandering, diffuse cloud of emission. FR II objects have supersonic jets that terminate in hotspots and result in backflows.

Some of the different types of active galaxy are linked by Unified models in which they are really the same class of object seen at different viewing angles, with relativistic beaming and dust obscuration causing the observational differences. The two main unified models link the different classes of Seyferts and radio galaxies, quasars and blazars.

See also

da:Aktiv galakse de:Aktiver galaktischer Kern es:Galaxia activa fr:Galaxie active it:Galassia attiva nl:Actief sterrenstelsel sv:Aktiv galaxkärna


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