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Astrophysical jet

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You may be looking for relativistic jet, a polar jet emitted at relativistic speed.

A polar jet is a phenomenon often seen in astronomy, where streams of matter are emitted along the axis of rotation of a compact object. It is usually caused by the dynamic interactions within an accretion disc. When matter is emitted at speeds approaching the speed of light, these jets are called relativistic jets. The largest polar jets are those seen in active galaxies such as quasars. Other systems which often contain polar jets include cataclysmic variable stars, X-ray binaries and T Tauri stars. Herbig-Haro objects are caused by the interaction of polar jets with the interstellar medium.

Unsolved problem in physics:
Why do the discs surrounding certain objects, such as the centers of active galaxies, emit radiation jets along their polar axes?
(more unsolved problems in physics)
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   A polar jet is a phenomenon often seen in astronomy, where streams of matter are emitted along the axis of rotation of a compact object. These focused beams of hot gas from some galaxies can shoot into space at more than 99 percent the speed of light. Recent studies of various astronomical formations such as novae, active galactic nuclei,young stellar objects and binary X-ray sources have indicated that polar jets are fairly common. Their frequency has led to speculation that they are essential to the channels through which much of the energy leaves whatever system they are observed in.

While it is still mostly a mystery to physicists how polar jets are formed and powered, the two most often proposed origins of this power are the central object (such as a black hole),and the accretion disk. Accretion disks around many stellar objects are able to produce jets, although those around a black hole are the fastest and most active. This is because the speed of the jet is around the same speed as the escape velocity of the central object. This makes the speed of a jet from an accreting black hole near the speed of light, while protostar jets are much slower. While it is not known exactly how accretion disks manage to produce jets, they are thought to generate tangled magnetic fields that cause the jets to collimate. 

       Determining the jets composition at a radii where they can be directly observed is thought to be one of the best methods of discovering how polar jets are produced. For example, the plasma of a black hole jet will have a different composition depending on if it originates from the accretion disk (electron-ion), or the black hole (electron-positron). The plasma also emits various forms of radiation such as X rays and radio waves.


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Illustration of quasar with jets, courtesy of NASA's website sources:

  • "Ask an Astrophysicist" section of NASA's website:

http://imagine.gsfc.nasa.gov/docs/ask_astro/answers/990923a.html

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